ACTIVE REMEDIATION 2 F.A.P. Plus 2 Electrical Skimmer 6. PASSIVE REMEDIATION 7 Passive Skimmer 7 SoakEase 8

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DURHAM GEO SLOPE INDICATOR ACTIVE REMEDIATION 2 F.A.P. Plus 2 Electrical Skimmer 6 PASSIVE REMEDIATION 7 Passive Skimmer 7 SoakEase 8 SUBMERSIBLE PUMPS 10 MVP Series 10 Evacuator II 14 SEP IV Electric 16 Level Controllers 18 SOLAR REMEDIATION 20 SolarNAPL 20 SolarSparge 21 LOW FLOW SAMPLING 22 Mini Bladder Pump 22 Sample Plus Pump 23 Peristaltic Pump 24 GROUND WATER PURGING 24 Peristaltic Pump 24 DC Pumps 25 Arch Pump 26 SUPPORT EQUIPMENT 26 INSTRUMENTATION 28 Water Level Indicators 28 Product/Water Probe 29 ANNEX 30 Index 35 Groundwater Sampling and Remediation 2006

ACTIVE REMEDIATION F.A.P. Plus Pump System ACTIVE REMEDIATION F.A.P. Plus Pump System Active pneumatic skimming system for product recovery Application LNAPL Recovery. DNAPL Recovery. 2 inch or larger wells. Recover a wide range of products from lightend hydrocarbons to more viscous products such as #6 heating oils. Description The F.A.P. Plus Pump system is comprised of seven main components: F.A.P. Plus Pump Skimmer Assembly Well Clincher Filter/Regulator (not shown) Pneumatic Overfill Protection Device Electric Air Compressor (not shown) Hoses (not shown) Options: SolarNAPL Compressor F.A.P. HF F.A.P. Plus Pump (TR-516) The F.A.P. Plus Pump consists of a flexible, special inner bladder and a flexible Buna-N hose which forms the outer pump body. The integral controller is housed inside the stainless chamber and is factory preset for 15 cycles per minute. This provides the optimum pumping rate. The pump operates by alternately inflating and deflating the annular space between the inner bladder and the outer hose. When compressed air is applied, the inner bladder collapses. When the air is exhausted, the inner bladder rebounds to its original shape thereby causing a suction which pulls fluid into the pump and up to the surface. The pump utilizes two check valves to maintain the suction and prevent the fluid from flowing back into the well. The pump is capable of producing a suction of 17 in of mercury for the recovery of viscous product and operation in deep wells up to 200 feet. The F.A.P. Plus can operate dry or in the coiled position without damage. It may be installed at the surface in shallow well applications. Skimmer Assembly The skimmer is attached to the bottom of the F.A.P. Plus pump and is used to separate the product from the water in the well. Depending on your site conditions, three types of skimmers are available: standard, high viscosity and density skimmers. The following table will help you select the proper skimmer for your site. Viscosity 80 SSU or less Higher than 80 SSU D from BW to PWI 24 18 18 6" Water Table Flu < 36 < 24 < 30 < 24" Well Diameter 2 2 4" 2" Part Number TR-517 TR-51711 TR-70410 TR-702 Skimmer Type Standard 36" travel Standard 24" travel High Viscosity Density Tech Tip: For recovery of sinkers, the DNAPL skimmer (TR-519) attaches to the bottom of the F.A.P. Plus Pump. Tech Tip: The high water shut off can be added to the TR-517, TR-51711 and the TR-70410 to insure water is not recovered should the water table change exceed the skimmer travel. Standard Skimmer (TR-517). The standard skimmer is used to recover gasoline, jet fuel and most diesel fuels. It combines a density float, a special hydrophobic element, a product bypass, a hollow guide rod and a coiled hose. The center guide rod allows the skimmer to travel freely in 2

Section 1 ACTIVE REMEDIATION F.A.P. Plus Pump System response to the water table changes. The skimmer is designed to float with the inlet positioned at the water/product interface automatically providing 36 of skimmer travel. The density float is used to position the special hydrophobic element the skimmer inlet at the product water interface. The hydrophobic element uses a special micron pore size that is based on surface tension, allowing only product to pass. A larger pore size is available for use with higher viscosity products such as weathered diesel. Pumping rates through the hydrophobic element will be approximately 100 gallons per day. 2 in. Well Clincher TR-762 F.A.P. Plus Typical Installation Air In Discharge Out Air Exhaust Air Filter/Regulator Assembly TR-748 Pneumatic Overfill Device TR-757 Tech Tip: The larger micron-sized elements may allow a small percentage of water to pass. The bypass element is attached to the top of the hydrophobic element and allows the product to enter the skimmer directly when the product layer is greater than 2 inches. Recovery rates through the bypass element are approximately 300 gallons per day. The complete skimmer element is connected to the bottom of the guide rod by a coiled polyurethane hose. This coiled hose can accommodate water level changes of up to 36 in automatically maintaining the skimmer intake at the water/product interface. A minimum distance of 24 in from the bottom of the well to the water/product interface is required when using the TR-517. The TR-51711 requires a minimum of 18 in and provides 24 in of travel. The skimmer can also be configured as a passive device by attaching a quick connect canister on the bottom of the skimmer, providing greater flexibility for free product recovery projects. (see Passive Skimmer on page 9). Maintenance: Biofouling may occur because the hydrophobic element is positioned at the air/product interface. If fouling occurs, the element can be cleaned using a soft brush or replaced by unthreading the bypass element and installing a new hydrophobic element. FAP Plus Pump TR-516 High Water Shut Off Product Bypass Hydrophobic Element Density Float Skimmer Assembly TR-517 Product Storage Tank Air Compressor in Non-Explosive Atmosphere TR-901 Floating Product Groundwater High Viscosity Skimmer (TR-70410). This skimmer is used when the product has a viscosity higher than 80 SSU, such as oils. The 4 in high viscosity skimmer uses the same design as the TR-517, less the hydrophobic and bypass elements. The skimmer has a 30 in travel and a specific gravity of 0.95, allowing it to float at the water/ product interface. The product collects on the top of the skimmer inlet and, from there, is pumped to the surface. In normal applications the skimmer will remove product down to a ¼ in to ½ in product layer. The skimmer can be adjusted in the field to remove the product even further and attain a thinner layer. Density Skimmers (TR-704, TR-706, TR-712). Density skimmers are used when there is less than 18 inches of flu- id from the bottom of the well to the water/product interface. These skimmers have a specific gravity of 0.95 and float in the water with the top inlet just above the product/water interface. The skimmers have an effective travel of 24 inches. The 2 in and 4 in sizes are for use in well casings with these nominal inside diameters. The 6 in and 12 in models are self-supporting and may be used in large diameter wells, open excavations and open water applications. High Water Shut Off (TR-51710). This option can be used on all the rod skimmers, TR-517, TR-70410 and TR-51711. It is used when the water table changes are expected to exceed the travel of the skimmer. When the skimmer reaches its upper travel limit and is submerged in water, the pneumatic logic shuts down the pump and will restart the pump 3

ACTIVE REMEDIATION F.A.P. Plus Pump System when the skimmer returns to its normal operating position. Tech Tip: It is important to ensure that water table level changes do not exceed the travel of the skimmer, or water could be collected. The High Water Shut Off, TR-51710, should be considered in these applications. When installing the system, it is also important to account for the rise in the water table due to removal of floating product. Water tables can rebound over 20% when product is removed. Well Clincher The Well Clincher has expandable, pass-through fittings for the air supply and fluid discharge hose, allowing the pump to be easily adjusted. The Well Clincher seals the well from debris and is available for wells with diameters from 2 to 8 in. Filter/Regulator The regulator allows the pump operating pressure to be set according to the depth of the pump. A minimum of 60 psi is required to operate the F.A.P. Plus pump properly. The filter regulator is included with each F.A.P. Plus pump. Well clincher and filter regulator in simple field installation. Pneumatic Overfill Protection Device Electro-Pneumatic Overfill Protection Device This device uses an intrinsically safe float sensor to shut off the air supply to the F.A.P. Plus pump. It includes a programmable 24 hour timer to allow on/off time settings in 15 minute increments. A 115 V power supply is required. Air Compressors and Membrane Dryer An electric, non-explosion-proof 2.5 hp, indoor-use air compressor producing 4.2 scfm is supplied with the standard F.A.P. Plus Pump System (TR-515). This compressor can be used with up to three F.A.P. Plus systems. A 5 hp compressor is available for use with more than three systems. If other air sources are used, they should include a 5 micron coalescing air filter. In freezing or high humidity conditions, an air dryer is required to avoid system damage. The Membrane Dryer (TR-749) is a good choice for use with the F.A.P. System. The F.A.P. Plus pump requires relatively dry air for optimum performance. Refer to line sizing chart on page 33. Hoses The standard hose size from the outlet side of the filter regulator to the F.A.P. Plus pump is a ¼ Push-Lok fitting and a 3/8 in barb fitting on the air inlet side. The standard F.A.P. Plus fluid discharge line has a 3/8 in barb fitting. The hose sizes may have to be increased depending on the distance between the system components. How do I select the most appropriate skimming system? The most important elements in choosing the F.A.P. Plus system will be your water table fluctuations, product viscosity, type of product, well diameter and amount of product present. You can find the complete design data sheet on our web site to define all of your site conditions. This device is installed on the recovery tank or drum to prevent overfilling the product storage vessel. The overfill device is installed on the storage vessel and will thread into a standard 2 in bung. The main air is supplied to the inlet side of the overfill device and the outlet air supply to the F.A.P. Plus pump. The overfill device senses a pressure differential when the storage vessel is nearly full and shuts off the air supply to the F.A.P. Plus pump. The standard overfill device can be used with three F.A.P. Plus pumps. The TR-75711 is used with more than three F.A.P. Plus pumps. TR-757 Options Tech Tip: The F.A.P. Plus requires a minimum of 60 psi for optimal performance SolarNAPL Solar-powered air compressor configured to drive an optional F.A.P. Plus pump. See page 6 for details. F.A.P. HF To pump at higher flow rates (up to 2.2 gpm) with a suction of 17 in Hg at the inlet. See page 13 for details. 4

Section 1 ACTIVE REMEDIATION F.A.P. Plus Pump System Size and Weight Air Requirements Operating Pressure Pump Capacity Max. Viscosity Suction Materials Air Supply to Pump Fluid Discharge Size Materials SPECIFICATIONS TR-516 F.A.P. Plus Pump System 1.75 in OD by 59 in long. 6 lb 0.5 cfm at 100 psig (2.8 dm³ at 690 kpa) 60 to 100 psig 15-20 gal/hr at 10 ft DTH 10-15 gal/hr at 100 ft TDH Based on gasoline through 3/8 in ID hose. Contact Factory 17 in Hg Flexible Buna-N (outer bladder) Tygon Special (inner bladder) Brass, stainless steel 1/4 in OD polyethylene 3/8 in ID Buna-N hose TR-517 F.A.P. Plus Skimmer 1 ¾ in OD x 67 in long. Fits 2 in and larger wells UHMW polyethylene, stainless steel, urethane tubing, hydrophobic material, nitrophyl float, brass fittings and PVC Float UHMW polyethylene, S.G. 0.95 Up to 36 in effective travel Sizes (Diameter) Materials TR-702/704/706/712 F.A.P. Density Skimmers Inlet Screen Effective Travel Size Enclosure Enclosure 1.65, 3.5, 5.5, or 11.5 in Float UHMW polyethylene, S.G. 0.95 Coil Stainless Steel Mesh Polyurethane tubing up to 24 in TR-757 All-Pneumatic Overfill Protection Device 4 x 4 x 20 in Fiberglass TR-758 Electro-Pneumatic Overfill Protection Device Pneumatic Valve Float Switch Voltage Power Cord Timer Filter Materials NEMA 4 rating; solid state GEM Pak circuitry. 8 x 6 x 4 in 23 scfm at 100 psi Intrinsically safe; w/ 100 ft cable 110 V (ac) 8 ft Provides 24 hr time-delay operation TR-748 Filter Regulator Coalescing, 5 micron with auto drain TR-762/764/766/768 Well Clincher PVC flat top cap with plastic fittings TR-901 Air Compressor Size 2.5 hp, 4.2 cfm oil lubricated. 115 or 230 V. 20 gal, ASME code steel tank Download datasheets, manuals, and technical notes from www.durhamgeo.com TR-515 TR-51504 TR-51506 TR-514 TR-5104 TR-5106 Components: 2 in F.A.P. Plus Pump System. Includes: Pump, F.A.P. Plus Skimmer, 2.5 hp compressor, 2 in Well Clincher, Pneumatic Overfill Protection Device. 50 ft suspension kit. 4 in F.A.P. Plus Pump System. Includes: Pump, F.A.P. Plus Skimmer, 2.5 hp compressor, 4 in Well Clincher, Pneumatic Overfill Protection Device. 50 ft suspension kit. 6 in F.A.P. Plus Pump System. Includes: Pump, F.A.P. Plus Skimmer, 2.5 hp compressor, 6 in Well Clincher, Pneumatic Overfill Protection Device. 50 ft suspension kit. 2 in F.A.P. Pump System. Same as TR-515 without compressor 4 in F.A.P. Pump System. Same as TR-51504 without compressor 6 in F.A.P. Pump System. Same as TR-51506 without compressor 175 lb 175 lb 175 lb 25 lb 25 lb 25 lb TR-516 F.A.P. Plus Pump and Filter Regulator 12 lb TR-517 TR-51718 TR-51711 F.A.P. Plus Skimmer, 36 in travel. Minimum depth of 24 in required* F.A.P. Plus Skimmer, 18 in travel. Minimum depth of 14 in required* F.A.P. Plus Skimmer, 24 in Travel. Minimum depth of 18 in required* 5 lb 5 lb 5 lb TR-51710 High-Water Shut-Off 3 lb TR-702 F.A.P. Plus Density Skimmer (1.65 in dia.) 3 lb TR-704 F.A.P. Plus Density Skimmer (3.5 in dia.) 3 lb TR-706 F.A.P. Plus Density Skimmer (5.5 in dia.) 3 lb TR-712 F.A.P. Plus Density Skimmer (11.5 in dia.) 3 lb TR-70410 4 High Viscosity Density Rod Skimmer (30 in Travel) 8 lb TR-519 DNAPL Skimmer 4 lb TR-757 Pneumatic Overfill Protection Device 4 lb TR-75711 TR-758 Pneumatic Overfill Protection Device for 3 or more pumps Electro-Pneumatic Overfill Protection Device with 24 hr programmable timer 8 lb 10 lb TR-762 2 in Well Clincher 1 lb TR-764 4 in Well Clincher 1 lb TR-766 6 in Well Clincher 1 lb TR-768 8 in Well Clincher 1 lb TR-748 Filter / Regulator 2 lb TR-734 3/8 in ID Buna-N hose.25 lb TR-735 1/4 in OD polyethylene tubing.25 lb TR-732 1/2 in Buna-N hose.25 lb 918702 Suspension Cable.25 lb TR-749 Membrane Dryer. Reduces dew point to -4 F 9 lb TR-901 Air Compressor, 2.5 hp 150 lb 903801 Hydrophobic Replacement Element (std.) 3 lb 903801B 250-micron Hydrophobic Element 1 lb * from bottom of well to product/water interface. 5

ACTIVE REMEDIATION ESS Electrical Skimmer System ESS Electrical Skimmer System Electric skimming system for product recovery. Application LNAPL Recovery. DNAPL Recovery. 4 inch or larger wells. Tech Tip: For 2 in wells, the pump can be mounted at the well head. Description Explosion proof Skimmer Pump Nema 4 Control Panel Skimmer Electric Skimmer Pump (TR-104). The ESS skimmer pump is a linear dual solenoid reciprocating piston pump that uses an internal piston and dual check valves to create suction transferring the product from the skimmer to the surface. The pump is equipped with a standard 100-foot power cable with NEMA 6P rated connections. The pump has a maximum depth capacity of 90 feet and can produce flow rates up to 150 gal/day. The discharge hose connection is a 3/8 in barb fitting. The pump itself is rated explosion proof and must be installed to Class 1 Division 1 electrical codes to maintain this rating. Skimming Pump Controller (TR-105 Series). It is used to control the run times for one to three skimmer pumps. The controller has three independent 24-hour timers with options for: Manual Pump Off, Manual Pump On, Auto Off cycle timer and Auto On cycle timer. To simplify operations, the pump run time is set based on the recovery rate of each well. When used in the auto cycle mode, the pump timer must be set allowing a 50% off time compared to the on or run time to maintain optimum pump life. The controller is housed in a NEMA-4 enclosure and is not rated explosion proof; therefore, it must be located outside the explosion rated area. The controller includes the tank overfill device and will operate on 110 V, 60 Hz or 230 V, 60/50 Hz. Standard Skimmer (TR-517). The standard hydrophobic skimmer attaches directly to the bottom of the pump via a quick connect fitting and provides 36 inches of automatic skimmer travel. The pump uses the same skimmer as the F.A.P. Plus system. The standard TR-517 skimmer is used for product with SSU values smaller than 80. For values greater than 80 SSU, the TR-70410 must be used. Size and Weight Output Pressure Pumping Capacity Max. Fluid Viscosity Suction System Pressure Materials Fluid Connections Power TR-104 TR-105 TR-1052 TR-1053 SPECIFICATIONS 3.6 in OD x 4 in Long. 4.8 lb 45 psig max. 33 gal/hr max. Contact Factory 25 in Hg 1400 psig max. Stainless steel and Flourel, Neoprene or EPDM 3/8 in NPT 120 V 60 Hz 80-130 W continuous duty 4 in Electric Skimmer Pump w/ 100 ft Power Cable Skimming Pump Controller w/ Timer and Tank Overfill Protection Device. 1 Pump Skimming Pump Controller w/ Timer and Tank Overfill Protection Device. 2 Pumps Electric Pump Controller w/ Timer and Tank Overfill Protection Device. 3 Pumps 14 lb 12 lb 12 lb 12 lb TR-517 Standard Skimmer, 36 in Travel 6 lb Accessories: TR-70410 4 in High Viscosity Rod Skimmer 8 lb TR-734 3/8 in ID Buna-N Hose (Discharge).25 lb TR-762 2 in Well Clincher 1 lb TR-764 4 in Well Clincher 1 lb TR-766 6 in Well Clincher 1 lb TR-768 8 in Well Clincher 1 lb 6

Section 1 PASSIVE ACTIVE REMEDIATION Passive Skimmer PASSIVE REMEDIATION Passive Skimmer Floating inlet automatically adjusts to water table changes. Application Passive LNAPL recovery Use when minimal product is present or slow recovery rates are expected 2 in and larger wells May be upgraded to an active system by adding the F.A.P. Plus Pump. Description Skimmer Canister Well Clincher with 30 ft cord Skimmer. The Passive Skimmer utilizes the F.A.P. Plus skimmer to provide a 36 in floating intake for the recovery of free phase products such as gasoline, diesel and jet fuel. It is used when minimal product is present or slow recovery rates are expected. For passive recovery of products with higher than 80 SSU, the 4 in high viscosity skimmer (TR-25410) is used. This system provides a floating intake of 30 inches. Product Recovery Canister. The clear PVC collection canister uses a quick connect fitting to attach it to the skimmer and provides venting through the skimmer support hollow rod. The bottom of the canister incorporates a petcock for easy draining. The petcock assembly can be removed allowing an extension canister to be threaded into the existing canister to increase the volume of free product that can be recovered. Additional weights are included with each canister and must be used for proper installation. TR-252 Well Clincher and Cord. The Well Clincher and 30 ft Nylon suspension cord are used to support the passive skimmer in the recovery well. The clincher incorporates an eye hook to attach the suspension cord. Correct measurement of the product water interface is necessary to properly position the passive skimmer. Tech Tip. The critical measurement for proper recovery is from the bottom of the well to the product water interface. Custom canisters are available for shallow well applications. SPECIFICATIONS 2" Model 4" Model Length 93.5 in 93.5 in Outside Dia. 1.75 in 3.5 in Effective Travel 36 in (30 in for High-Viscosity Skimmer) Canister Volume 0.13 gal 0.45 gal Canister Length 24 in 15 in Min. Water Depth 50.5 in Weight 4 lb 6 lb Extension Canister Length Extension Canister Volume Materials 18 in 16.5 in 0.10 gal (Additional) 0.52 gal (Additional) UHMW polyethylene, stainless steel hollow rod and clamps, urethane tubing, polyethylene hydrophobic filter, Nitrophyl float material, brass fittings, PVC tubing mouldings. TR-252 2 in Passive Skimmer 4 lb TR-253 2 in Extension Canister 1 lb TR-254 4 in Passive Skimmer 6 lb TR-25410 4 in Passive Skimmer (High-Viscosity ) 6 lb TR-255 4 in Extension Canister 2 lb Parts required to convert a Passive Skimmer into an Active Skimming System: TR-516 F.A.P. Plus Pump 6 lb TR-762 2 in Well Clincher 1 lb TR-764 4 in Well Clincher 2 lb 301822 1/4 in Brass Plug.25 lb 301139 Push-Lok Fitting.25 lb 7

PASSIVE REMEDIATION SoakEase SoakEase Absorbent material for immediate response or minimal product. Application Passive LNAPL Recovery. Rev. 01/08 Description 8 36 in Canister Absorbent Socks for 1, 2 and 4 in Canisters SoakEase is a product-selective absorbent sock housed inside a stainless steel canister. It is used as a passive collection system for free phase product such as jet fuel, gasoline or diesel fuel from 1.25 in and larger recovery wells, monitoring wells and recovery trenches. The SoakEase can be used as a bailer for periodic product removal or as a dedicated system for a more continuous method of recovery. Prior to dedicating the SoakEase, it is recommended that excess free product be removed by bailing with the SoakEase. To use SoakEase as a bailer, an absorbent sock is placed in the stainless steel canister; a cord is attached to the support loop and then lowered through the product layer. The full length of the sock should come into contact with the product for greater recovery. Immediately, the SoakEase will begin absorbing product at a rate of approximately 0.1 gallon per second, depending on the product viscosity. After some time, the SoakEase should be raised from the well; the sock removed from the canister and disposed of in accordance with regulations. To use the SoakEase as a dedicated system, determine the amount of product present and the water table fl uctuation using the PWI interface meter (TR-921). When these have been determined, the SoakEase may be installed to accommodate level changes up to 36 in. Tech Tip: The product absorption rate is determined by the viscosity of the product and can vary depending on site conditions. The SoakEase is designed to be used with hydrocarbon-based products. The user must determine the necessary replacement schedule by gauging site conditions. The socks can be squeezed out and reused. Approximately 80% of the original absorption can be recovered. SPECIFICATIONS Size Designation 1 in 2 in 4 in Outside Diameter 1.0 in 1.7 in 3.5 in Length 3 ft 3 in Weight (Net) 1.8 lb 3.0 lb 6.0 lb Canister Material Stainless Steel Type 304, perforated Absorbent Sock Material Rated Absorption Polypropylene fi brous material contained in a white fabric sock 1 in Socks 0.67 US gal per case ( 0.18 qt per 1" sock) 2 in Socks 3 US gal per case (1 qt per 2" sock) 4 in Socks 9 US gal per case (3 qt per 4" sock) Incompatibility Slight degradation may occur if exposed to strong oxidizing agents Warning Not recommended for use with aggressive fl uids, including strong acids, strong bases, oxidizers and hazardous materials Reaction time Immediate TB1-100 1 in SoakEase Kit. Includes: 7 lb (1) 1 in Canister w/ Absorbent Sock (15) Absorbent Socks TB1-101 1 in Canister 2 lb TB1-110 1 in SoakEase Refi ll (case of 12) 4 lb TB2-100 2 in SoakEase Kit. Includes: 7 lb (1) 2 in Canister w/ Absorbent Sock (15) Absorbent Socks TB2-101 2 in Canister 2 lb TB2-110 2 in SoakEase Refi ll (case of 12) 4 lb TB4-100 4 in SoakEase Kit. Includes: 8 lb (1) 4 in Canister w/ Absorbent Sock (4) Absorbent Socks TB4-101 4 in Canister 3 lb TB4-110 4 in SoakEase Refi ll (case of 12) 7 lb

Section 1 PASSIVE ACTIVE REMEDIATION Petro-Bailer Low-cost passive skimmer with a fixed product inlet. www.durhamgeo.com Always up to date. Application Passive LNAPL Recovery. 2 in and larger wells Description The Petro-Bailer comprises: Top cap with a stainless loop Hydrophobic inlet filter element Collection reservoir Weighted end point The fixed inlet passive skimmer is made from threaded PVC components and is designed to collect free phase product from 2 in and larger wells. The hydrophobic inlet filter element connects between the body and top cap. The passive skimmer will accommodate water table fluctuations of up to 12 inches. The device will collect water if level fluctuations are greater than 12 in. Top Cap Filter Body End Point Because we strive to constantly improve our products, our offerings may have changed since the publication of this catalog. Please consult our web site for the latest and most complete information including data sheets, manuals and miscellaneous technical notes. Save time! Download data sheets, catalogs, forms and software. Go to www.durhamgeo.com and select "Downloads" from the menu bar on the left, and you should see a page resembling the one shown below. Size Volume Weight (Net) Depth Materials SPECIFICATIONS 61.5 in long x 1.66 in diameter 0.21 gal 3.25 lb 41.5 in water (minimum for skim) PVC body, end point and top. Porous polypropylene fiber element, 12 in stainless steel suspension loop, Buna-N "O" Rings TR-007 2" Petro-Bailer (1.66 x 61.5 in) 4 lb TR-008 Petro-Bailer Weighted End TR-009 Petro-Bailer Replacement Reservoir TR-010 Petro-Bailer Replacement Hydrophobic Element TR-011 Petro-Bailer Replacement Top Save more time by shopping online! There is a convenient link on our Home page (www. DurhamGeo.com). We even have a Quick Order Form for those who know the part number they wish to order and and a quick get-in-and-get-out solution. 9

SUBMERSIBLE PUMPS MVP Series SUBMERSIBLE PUMPS MVP IV Series Pneumatic Pumps Controllerless air lift pump Application Controllerless ground water pump for use in 4 inch and larger diameter wells and up to 200 feet depths for: Dissolved Phase Total Fluids Plume Control Dewatering Leachate MVP IV Pump Description The MVP IV pump kit includes: MVP IV Pump Well Clincher (well cap) Air Particulate Filter Regulator The MVP IV Pump uses an internal float that responds to the fluid level within the pump body to cycle the pump automatically, based on the recharge of the well. As the pump fills with fluid, the float moves to the upper position, activating the mechanical arm which opens the air inlet valve. This allows air to enter the pump chamber, simultaneously pressurizing the vessel and closing the upper and lower inlet check valves. As a result, the fluid moves to the surface. As the fluid is emptied from the vessel, the float returns to the lower limit off position closing the air inlet and opening the air exhaust valve. During the filling cycle, air is vented through the exhaust port and the cycle is automatically repeated. The thread together design provides complete access to all the internal components. This makes it possible to change pump loading configurations easily. The pump head can be easily removed should access to the air inlet and exhaust valves be needed. Positive Valve Shifting The air inlet and air exhaust valves are incorporated on the same side of the pump to impart a mechanical advantage which makes the valve shift fully and reliably. This leverage is seven times greater than would be available if the valves were located on opposite sides of the pump head. The new free-floating actuating arm ensures a positive air valve shift. The design permits the use of larger and simpler air exhaust valves to eliminate air quality and stalling concerns. The poppet design valves provide a larger surface area improving air efficiencies. Every MVP IV pump includes the override feature allowing the pump and discharge line to be emptied from the surface reducing the Magnet Actuating Rod Float Discharge Air Exhaust Air Inlet Pump top with body removed to show how mechanical advantage is achieved in the valve actuating design. pump s weight during its removal. An additional ¼ in air line is required. Tech Tip: Maintenance of the MVP IV pump will vary based on site conditions. For sites with high mineral concentrations, it may be necessary to remove the pumps periodically to clean the mineral deposits. The MVP IV features an all-stainless steel linkage system with Teflon bushings with a synthetic glass resin float to insure reliability and chemical compatibility. Stainless steel floats are optional. For added durability, all MVP IV pumps have a stainless steel body. The MVP IV pump uses clampless barb fittings for the 3/4 in discharge and 3/8 in air exhaust lines. The air supply uses a 1/4 in PushLok fitting. Quick connect fittings (TR-80910) are available as an option. Tech Tip: In deeper applications, the size of the air exhaust and fluid discharge lines may be increased to reduce friction loss and increase flow rates. Lever Flow rates range from 8 gpm on top-loading pumps to 13 gpm on standard pumps. Pump flow rates will be affected by the amount of head above the pump. Should lower flow rates be required, the flow control valve TR-698 can be installed on the exhaust line of the MVP IV pump. This will allow the user to restrict the air exhaust which regulates the fill time of the pump. It is important to properly size the air supply and discharge lines to accommodate for friction loss. Refer to line sizing tables on pages 33 and 34. 10

SUBMERSIBLE PUMPS MVP Series Loading Configurations Top loading pumps are selected for pumping total fluids (LNAPL and ground water simultaneously). The top loading pumps will produce flow rates of up to 8 gpm depending on the head above the pump. Water table drawdown will be maintained at a level corresponding to the top inlet of the pump. Shorter length pumps are available for lower drawdown requirements. The Well Clincher serves as a well seal and pump support. It simplifies hose connection. A retractable handle provides for easy installation or removal of the pump system. The 90 degree fittings on the top of the Clincher reduce the possibility of kinked hoses in the well vault. Expandable Well Clinchers with pass-through ports are available for installations requiring frequent pump adjustments. TR-773 Tech Tip: A skimmer attachment (TR-810) can be threaded onto the top inlet of the pump allowing the pump to collect product only. Bottom loading pumps are selected for dissolved phase, DNAPL or leachate applications. When installing the pump, the head is positioned at the depth of the desired water table depression. During start-up, the pump fills from both the top and bottom inlet ports. As the water table depression zone stabilizes, the pump will fill from the MVP IV Pumps. Left: Bottom Loading model Right: Top Loading model bottom only. The bottom loading pump can be configured with a closed top to reduce the possibility of debris entering through the inlet. This may be particularly useful in leachate applications or applications where floating debris is present. View animated graphics on our web site. They show how the pumps function. There are links on the pumps' page. Tech Tip: Minimum submergence can be reduced on the bottom loading pump by installing the stop collar on the float actuating rod (TR-7714). This will reduce the float travel and open the air valve with less fluid in the pump. The top loading pump submergence can be reduced with a short pump. The Particulate Filter/Regulator should be installed at the well head to supply the proper air pressure to the MVP IV Pump. This will optimize air consumption. A good guideline for setting the air pressure is 0.5 psi per foot of pump depth. Tech Tip: Air consumption of the MVP IV pump is based on the depth and PSI setting. For a simple calculation use 1 cfm per gallon pumped. This is the maximum the pump will consume. Accessories: The Pulse Counter is used to determine the flow rate of the MVP IV Pump. The newly designed counter is compact and is installed in the air supply line at the well head. As the pump cycles, the counter senses the drop in air pressure indicating the pump has cycled. The number of cycles is multiplied by the volume of the specific pump TR-778 you are using to provide the flow rate. The counter is not resetting. The standard hose assembly (TR-777) consists of a 3/4 in Buna-N discharge line, a 1/4 in Nylon air supply line and a 3/8 in Buna-N air exhaust line. The Buna-N hose provides a flexible, chemically compatible discharge line. The main air supply and fluid discharge hoses should be properly sized to minimize head loss due to line friction. 11

SUBMERSIBLE PUMPS MVP Series MVP Pneumatic Pump Lower cost alternative The MVP Pump is identical to the MVP IV Pump except that the MVP Pump head and bottom valve assemblies are manufactured from Delrin instead of stainless steel. All other components are interchangeable. Delrin is a rugged, lightweight, high density plastic that is chemically compatible with the fluid in most applications. The MVP Pump provides a cost effective, high performance system. MVP LS and MVP LD Leachate and Condensate Pumps These models are specifically designed for use in landfills where leachate or gas condensates are recovered. They feature an air override that allows the pump and discharge lines to be emptied from the surface prior to pump removal. The MVP LS is a stainless steel bottom fill pump with a closed top and stainless steel fittings. The MVP LD is made from stainless steel and Delrin with a bottom fill, closed top and PVC fittings. Operation of these pumps is identical to the standard MVP IV Pumps. They can be supplied with custom Well Clincher flanges designed to meet your specific site requirements. Part Number Top Loading Model Designation Pump OD (in) Pump Length (in) SELECTION TABLE FOR MVP SERIES PUMPS Volume /cycle (US gal) Body Material Pump Head Min. Submergence (in) Pump Weight (lb) Max.. Flow Rate (gpm) Well Clincher Air Regulator TR-775 27 Optional Optional MVP IV 40.5 40⅛ 8 TR-770 S.S.* 36 Included Included TR-775S MVP IV Shallow 35.5 Stainless 35⅛ 22 7 Optional Optional 3.5 0.4 TR-802 Steel 16 Optional Optional MVP 40.5 40⅛ 8 TR-800 Delrin 25 Included Included TR-802SP MVP Shallow 35.5 35⅛ 15 7 Optional Optional Bottom Loading Models TR-776 27 Optional Optional MVP IV 42.5 34 13 TR-771 S.S.* 36 Included Included TR-776S MVP IV Shallow 37.5 29 22 10 Optional Optional 0.4 TR-803 34 16 Optional Optional MVP 40.5 Stainless 13 TR-801 3.5 34 25 Included Included Steel Delrin TR-803SP MVP Shallow 35.5 29 15 10 Optional Optional TR-77714 MVP LD 42.5 11.5-14 27 5.5 Optional Optional 0.18 TR-815 42.5 S.S.* 34 27 13 Optional Optional MVP LS 0.4 TR-816 40.5 Delrin 34 16 13 Optional Optional * Stainless Steel Note: to order any of the above pumps with a 1 discharge use the part number TR-10011 as an extra line item. Flow Rate (GPM) 14 12 10 8 6 4 2 MVP IV Pump Performance Flow Rate Bottom Loading Flow Rate Top Loading 0 0 0 10 25 50 75 100 150 200 Pump Depth (ft) Air Consumption 1.4 1.2 1 0.8 0.6 0.4 0.2 Air Consumption Standard Cubic Feet per Gallon Pumped 12

SUBMERSIBLE PUMPS MVP Series MVP PUMP TYPICAL INSTALLATION On/Off Valve Air Supply Filter Regulator Suspension Cable Well Screen Float Assembly 3/4'' Fluid Discharge Air Exhaust TR-773 4 in MVP Well Clincher 2 lb TR-786 4 MVP Well Clincher w/ 1 Discharge Fittings TR-788 6 in MVP Well Clincher 4 lb Accessories TR-76018 TR-77311 TR-78811 TR-88810 Adjustable Well Seal for MVP IV 1 in disch, 3/8 in vent, 1/4 in supply MVP 4 in Well Clincher with 2 in SVE Adapter MVP IV 6 in Well Clincher with 2 in SVE Adapter Landfill 8 in Flange for MVP pumps 600572 Landfill 6 in Flange for MVP pumps 600066 4 in Clincher with Adjustable Fittings TR-10011 Common Parts TR-774 TR-778 TR-809 TR-769 TR-777 TR-794 TR-759 TR-752 1 Discharge Barb Fitting for MVP Pump MVP Filter Regulator MVP Pulse Counter Stainless Steel Float for MVP IV O-Ring Kit for MVP Pump MVP Down Well Tubing (3/4, 3/8, 1/4 in) MVP Down Well Tubing Assembly (1, 3/8, 1/4 in) Stainless Steel Bottom Assembly for Bottom Loading Pump. Assembly Converter Valve, Top Load. 918702 Nylon -Coated Stainless Steel Cable. Sold per ft. F.A.P. Plus HF For horizontal or vertical recovery wells MVP IV Pump Application Dissolved Phase Total Fluids Leachate LNAPL and DNAPL (with optional skimmer) The F.A.P. Plus HF can be used for horizontal or vertical recovery of gas condensate, total fluids, LNAPL or DNAPL. This flexible pump can provide flow rates of up to 1.2 gpm and a suction of 17 in Hg at the inlet. These pumps may be installed in parallel, increasing flow rates. The pump design isolates the air supply used to cycle the pump from the liquid being recovered, a benefit in gas condensate applications. The pump may run dry without damage. For use in 2 in or larger wells. For details and ordering information, please consult our web site. TR-720 F.A.P. Plus HF Pump 7 lb Left: F.A.P. Plus HF, TR-720. Inset: Detail of optional inlet screen, TR-519. 13

SUBMERSIBLE PUMPS Evacuator II Evacuator II Pneumatic Pump High Flow Controllerless Groundwater Pump Application For 2 in and larger diameter wells and up to 200 ft depths for: Dissolved Phase Total Fluids Plume Control Dewatering Leachate Description The 2 in Evacuator II Pump System includes: 2 in. Evacuator II Pump Well Clincher for use in vacuum operation 5 micron Coalescing Air Filter/Regulator with autodrain The Evacuator II Pump uses down-well internal logic combined with a small diameter float to automatically cycle the pump, eliminating the need for additional controls at the surface. For the 2 in diameter pumps, this logic technology allows the pump to use a much smaller float and fewer components than those using a mechanical type of design. Hence, this pump, with just a 33 in length will produce flow rates up to 4 gpm in the bottom loading configuration. As the pump fills with fluid, the float moves to the upper position activating the pneumatic logic. This opens the air valve located in the well clincher allowing air to pressurize the chamber, closing the check valve and pushing the fluid to the surface. When the fluid is evacuated, the float falls to the lower position where it activates the lower logic opening the air exhaust port. As the pump fills with fluid under static pressure, the air is exhausted and the cycle is repeated until the water table reaches the desired drawdown. The Evacuator II is constructed from stainless steel with a Nitrophyl float and Viton seals providing chemical resistance for most applications. Complete access to all internal components is provided with the three-piece thread-together construction. Maintenance will vary based on the site conditions. Conditions with high mineral concentrations may require routine cleaning. The Evacuator II style pump requires good air quality and an air drier is recommended. It is important to ensure that all air lines are purged to remove debris prior to start-up. Loading Configurations Top loading pumps are selected for total fluids applications, the recovery of LNAPL and ground water simultaneously. Fluid enters the top inlet and the water table will be maintained at this point. The top loading pumps will produce flow rates up to 2.5 gpm, dependent on the head above the pump. Bottom loading pumps are selected to pump dissolved phase product, DNAPL or leachate. When installing the pump, the head of the pump is positioned at the depth of the desired water table drawdown. Bottom loading pumps will produce flow rates up to 4 gpm. View animated graphics on our web site. They show how the pumps function. There are links on the pumps' page. The Well Clincher is an integral part of the system and serves as a well seal, pump support and houses the air control valve. The underside of the well clincher has color coded, PushLok fittings for the air logic line connections and barb fittings for the 1/2 in air supply and 5/8 in fluid discharge hoses. A 12 in chain is provided to attach the pump support cable. The air supply and fluid discharge lines are easily connected to 90 0 fittings on the top of the clincher. The built-in handle makes it easy to lower or remove the pump. A coalescing air filter and regulator assembly is included with each Evacuator II Pump system. This must be installed at the well head Top Load Bottom Load Evacuator II Pumps. Left: Top Loading model Right: Bottom Loading model 14

Pump Rate (GPM) SUBMERSIBLE PUMPS Evacuator II to ensure proper air pressure and filtration is being supplied to the pump. In freezing or high humidity conditions, an air dryer may be needed to ensure correct operation. The filter/regulator attaches directly to the Well Clincher. Tech Tip: A good guide line for setting the air pressure is 0.5 psi per foot of depth. Hose Assembly TR-121 The standard hose assembly contains five hoses in a PVC jacket to simplify installation. The assembly, TR-731, contains three 1/8 in Nylon air logic lines, 5/8 in Nylon fluid discharge and 1/2 in polyethylene air supply and exhaust lines. Pump Rate (GPM) 5 4.5 2 in Evacuator II Top Loading Pump 3 2.5 2 1.5 1 0.5 0 0 10 20 30 40 50 60 70 80 90 100 Pump Depth (ft) 2 in Evacuator II Bottom Loading Pump Pump Type Max.. Rated Depth Pump Vol.. per Cycle Operating Pressure Minimum Fluid Level Max.. Discharge Rate at 3 ft Submergence Max.. Operating Temp. Pump OD Pump Length Air Filtration SPECIFICATIONS Positive Air Displacement 200 ft 0.18 US gal 20-100 psi Bottom Loading: 28.5 in Top Loading: 33.5 in Bottom Loading: 4 gpm Top Loading: 2.5 gpm 120ºF 1.75 in Bottom Loading: 33.5 in Top Loading: 42 in 5 micron filtered, dry Construction: stainless steel type 303 body, head, bottom, internal discharge line and check valves. Brass hose barbs and float stops. Nitrophyl float. Buna-N bottom inlet valve ball. TFE ball with stainless steel seat top inlet (top loading only) and discharge check valves. TR-121 TR-12111 TR-123 TR-12311 Accessories: TR-731 2 in Evacuator II Pump, Bottom Loading, with Well Clincher and Filter/Regulator 2 EVACUATOR II Pump, Bottom Loading, inline control / frl 2 in Evacuator II Pump, Top Loading, with Well Clincher and Filter/Regulator 2 in Evacuator II Pump, Top Loading, inline control / frl 2 in Evacuator II Hose Assembly with PVC Jacket. Sold by the foot. 920501 2 in Well Clincher for Evacuator II TR-748 TR-778 Coalescing Filter/Regulator Pulse Counter 6 lb 7 lb 6 lb 7 lb 15 4 3.5 3 2.5 2 1.5 1 0.5 0 Air Consumption 0 10 20 30 40 50 60 70 80 90 100 Pump Depth (ft) The Evacuator II Pump exhausts the air back to the surface after each cycle using the same air supply/exhaust line. Therefore the greater the depth, the higher the air consumption of the pump will be. The Evacuator II Pump will use approximately 1 cfm of air per gallon pumped at depths of up to 50 ft. To determine the air consumption, use the following guilelines: 40 psi 0.8 scfm 80 psi 1.7 scfm 60 psi 1.2 scfm 100 psi 2.1 scfm Tech Tip: To reduce air consumption the air logic valve can be installed in the down well hose assembly above the water table. This is especially beneficial for deep application preventing the air from being exhausted back to the well head. Please consult Durham Geo Slope Indicator for ordering information.

SUBMERSIBLE PUMPS SEP IV SEP IV Electric Pump Systems Higher Flows in Ground Water Recovery Application Dissolved Phase Leachate Plume control Dewatering Flow rates up to 75 gpm Depths up to 400 feet. Description producing flow rates up to 75 gpm and to depths up to 400 feet. Other pump ends are available. The SEP IV Pump System consist of three components: the pump end, the pump motor and the motor lead. Selecting the most efficient system for your site requires the following information: total head desired flow rate well depth well diameter chemical compatibility requirements Use the pump curves to match your flow rate and total head to select the pump end that best meets your requirements. The curve will indicate the motor horsepower required. Select the motor leads for your well depth. The SEP IV Pump System consists of: Stainless steel pump Electric motor Motor lead The SEP IV is a continuous-duty electric submersible pump designed for the withdrawal of contaminated groundwater or leachate in environmental applications. The pumps require a control mechanism such as the Septek to maintain the desired drawdown level. Stainless Steel Pump The SEP IV pump ends are constructed of 304 stainless steel to provide chemical compatibility for typical environmental installations. Standard pump ends are supplied with durable PBT (polybutylene terephtalate) seals for chemical resistance in most cases. PBT seals are not recommended for use with chlorinated solvants in which case Teflon seals are recommended. PBT seals generally provide better wear resistance than Teflon. DGSI Teflon seal kits are available for all SEP IV pump ends. Note: Teflon seals will reduce flow rates by 10%. The SEP IV standard pump ends are available in eighteen standard models, 16 Left: Bearings with sand channels. All PBT standard bearings are water-lubricated and have a square shape enabling sand particles, if any, to be flushed out of the pump together with the pumped fluid. Left: SEP IV Pump System. The pump (top half) is bolted to the electric motor (bottom half). The motor leads are not shown. Rotational Speed Max. Quantity of Sand PUMP END SPECIFICATIONS 3450 rpm 0.25 lb/100 ft³ (40 g/m³) Min. Recomm. Level of Suction 3.28 ft (1 m) Maximum Liquid Temperature 86 F (30 C) Maximum Starts per Hour 15 to 20 Electric Motor All motors are manufactured by Franklin Electric and are available from 0.5 to 7.5 hp. The motors are available in single phase 230 V, three phase 230 V or three phase 460 V. The three phase motors are used when the pump speed will be variable. Other motors are available upon request. Single Phase three-wire pump motors require the use of a control box containing a starting capacitor and relay. The three-wire motors provide a soft start and may offer better service life in deep well or in conditions where the motor requires higher torque to start. The two-wire motors use an internal bi-metal switch to start the motor. Motor Lead Motor leads are supplied separate from the pump end and motor assemblies. DGSI manufactures standard PVC leads in continuous lengths with no splices and individually insulated. The motor lead assembly can be supplied in Tefzel, a material that combines superior mechanical toughness with an outstanding chemical inertness. It is important to confirm chemical compatibility before choosing your motor lead type. Motor leads are 12-gauge wire with either two- or threewire leads plus the ground.

SUBMERSIBLE PUMPS SEP IV FOR PUMP ENDS Pump Model 5 gpm 10 gpm 16 gpm 25 gpm 40 gpm 75 gpm Part Number PBT Seals (Std) Stages Dimensions Teflon Length O.D. D Seals in mm in mm NPT TR-2400 TR-2400T 9 15.543 344 Weight Required Power lb kg hp kw 9.7 4.4 1/2 0.37 Recommended Motor End (Part Number) TR-2401 TR-2401T 12 16.850 428 11.4 5.2 1/2 0.37 TR-2335, TR-2336 or TR-2338 TR-2402 TR-2402T 15 20.984 533 14.1 6.4 3/4 0.56 TR-2505 TR-2403 TR-2403T 9 15.543 344 9.7 4.4 1/2 0.37 TR-2335, TR-2336 or TR-2338 TR-2404 TR-2404T 13 16.024 407 1¼ 11.4 5.2 3/4 0.56 TR-2505 TR-2405 TR-2405T 18 18.504 470 13.2 6 1 0.75 TR-2345, TR-2346 or TR-2348 TR-2406 TR-2406T 5 10.236 260 6.6 3 1/2 0.37 TR-2335, TR-2336 or TR-2338 TR-2407 TR-2407T 8 12.716 323 8.8 4 3/4 0.56 TR-2505 TR-2408 TR-2408T 10 14.370 365 11.0 5 1 0.75 TR-2345, TR-2346 or TR-2348 3.976 101 TR-2409 TR-2409T 3 8.622 219 5.5 2.5 1/2 0.37 TR-2335, TR-2336 or TR-2338 TR-2410 TR-2410T 7 11.929 303 1½ 8.8 4 1 0.75 TR-2345, TR-2346 or TR-2348 TR-2411 TR-2411T 11 15.236 387 9.9 4.5 2 1.49 TR-2314 TR-2412 TR-2412T 5 16.102 409 13.2 6 1½ 1.12 TR-2350, TR-2351 or TR2352 TR-2413 TR-2413T 9 22.717 577 15.4 7 3 2.24 TR-2315 TR-2414 TR-2414T 15 32.638 829 26.4 12 5 3.73 TR-2316 2 TR-2415 TR-2415T 5 14.961 380 16.5 7.5 3 2.24 TR-2315 TR-2416 TR-2416T 8 20.079 510 23.5 10.7 5 3.73 TR-2316 TR-2417 TR-2417T 12 37.992 965 29.0 13.2 7½ 5.59 TR-2317 Custom and high-flow pumps are available on request. Please call to discuss your requirements. Part Number TR-2335 FOR MOTOR ENDS Power (hp) MOTOR END (230 V) (V) Wires 2 1 TR-2336 0.5 3 1 TR-2338 3 3 TR-2348 3 3 230 TR-2350 3 1 Phase Length (in) Weight (lb) 9.5 18.0 TR-2505 0.75 2 1 10.7 21.0 TR-2345 2 1 TR-2346 1 3 1 TR-2351 1.5 2 1 TR-2352 3 3 TR-2314 2 11.8 24.0 13.6 29.0 13.6 28.0 TR-2315 3 20.6 44.0 3 3 TR-2316 5 23.5 50.0 TR-2317 7.5 18.0 66.0 Note: Three-phase 460 V motors are available. FOR MOTOR LEADS MOTOR LEAD (PVC Coated) Length Type Part # Type Part # 25 ft TR-137603 TR-137609 50 ft TR-137604 TR-137610 75 ft TR-137605 TR-137393 100 ft 2 Wire TR-137606 3 Wire 12 gauge 12 gauge TR-137394 150 ft TR-137607 TR-137395 200 ft TR-137608 TR-137396 250 ft TR-137611 TR-138398 300 ft TR-137612 TR-137397 MOTOR LEAD (TEFZEL ) Length Type Part # Type Part # 25 ft TR-38130 TR-38106 50 ft TR-38131 TR-38102 100 ft TR-38132 TR-38103 150 ft 2 Wire TR-38133 3 Wire 12 gauge 12 gauge TR-38104 200 ft TR-38134 TR-38105 300 ft TR-38135 TR-38107 SepTek Pump Control (optional) The SepTek mechanical down-well controller is an ideal device to use with the SEP IV pumps to maintain a desired level of water table draw down. See page 24 for details. 17

SUBMERSIBLE PUMPS SEP IV Performance Curves FLOW RANGE: 1.2 7 gpm Model: 5 gpm [ft] 600 [m] 180 500 160 140 TR-2402 (3/4 hp) 400 120 TR-2401 (1/2 hp) Head 300 100 80 TR-2400 (1/2 hp) 200 60 40 100 20 0 0 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 Q [m³/h] Performance @ 2 ft min. submergence 0 1 2 3 4 5 6 7 FLOW RATE [US gpm] 18 Factory-assembled motors and motor leads. We make our own motor leads to provide the specified full cable lengths with no splices. We use potted plugs for greater life and reliability of the connection. For every order, we test the motor leads and motors as complete assemblies, with a high-voltage megohmmeter, for quality and compliance.

SUBMERSIBLE PUMPS SEP IV [ft] [m] FLOW RANGE: 5 14 gpm Model: 10 gpm 160 TR-2405 (1hp) 400 120 TR-2404 (3/4 hp) -1 80 Head 200 40 TR-2403 (1/2 hp) 0 0 0.0 0.4 0.8 1.2 1.6 2.0 2.4 2.8 3.2 Q [m³/h] Performance @ 2 ft min. submergence 0 2 4 6 8 10 12 14 FLOW RATE [US gpm] FLOW RANGE: 10 20 gpm Model: 16 gpm [ft] [m] 400 120 TR-2408 (1 hp) Head 200 80 40 - TR-2407 (3/4 hp) 0 TR-2406 (1/2 hp) 0 0.0 0.4 0.8 1.2 1.6 2.0 2.4 2.8 3.2 3.6 4.0 4.4 Q [m³/h] 0 4 8 12 16 20 [US gpm] Performance @ 2 ft min. submergence FLOW RATE FLOW RANGE: 18 32 gpm Model: 25 gpm [ft] [m] 400 120 TR-2411 (2 hp) Head 80 TR-2410 (1hp) 200 40 TR-2409 (1/2 hp) 0 0 0.0 0.8 1.6 2.4 3.2 4.0 4.8 5.6 6.4 7.2 Q [m³/h] Performance @ 2 ft min. submergence 0 4 8 12 16 20 24 28 32 FLOW RATE [US gpm] 19

SUBMERSIBLE PUMPS SEP IV FLOW RANGE: 24 55 gpm Model: 40 gpm [ft] 600 [m] 160 TR-2414 (5 hp) 400 120 Head 80 TR-2413 (3 hp) 200 40 0 0 TR-2412 (1.5 hp) 0 1 2 3 4 5 6 7 8 9 10 11 12 Q [m³/h] Performance @ 2 ft min. submergence 0 5 10 15 20 25 30 35 40 45 50 55 FLOW RATE [US gpm] [ft] [m] FLOW RANGE: 45 95 gpm Model: 75 gpm 400 120 TR-2417 (7.5 hp) 350 110 100 300 90 TR-2416 (5 hp) Head 250 80 70 200 60 TR-2415 (3 hp) 50 150 40 100 30 20 50 10 0 0 0 2 4 6 8 10 12 14 16 18 20 22 Q [m³/h] 0 20 40 60 80 100 Performance @ 2 ft min. submergence FLOW RATE [US gpm] 20

Fluid Level Control Systems Increase pump life by reducing the number of motor starts and stops SUBMERSIBLE PUMPS SEP IV SEPTEK Precise drawdown without above-grade controllers Application and benefits Maintain a precise drawdown level in a well for extended periods. SEP IV Control Panels Electrical level control system TR-586 Internal workings Controller shown with optional SEP IV pump DGSI can supply UL-approved control panels for your specific requirements. All of our panels meet or exceed NEMA standards. The panels may be configured using variable speed drives allowing the pump speed to match the recharge rate of the well. Multiple pumps may be controlled by a single panel. Simple ON/OFF control panels may be provided using float sensors or pressure transducers to activate or deactivate the pump. Please call for specific details. (R) Typical assembly showing the SepTek (above) connected to an SEP IV pump (bottom). The SepTek is a mechanical down-well device used with electrical pumps to maintain a desired water table drawdown for extended periods. Installation is easy. Simply place the SepTek in line above the SEP IV or other electric pump exactly where the desired water level is to be maintained and walk away! The SeptTek/SEP IV Combo will do the rest. No need for cycling submersible motors on and off. No expensive relays, no VFD S, no throttling valves. It s simple and maintenance is low. When the pump is activated, the internal float will respond by directing the liquid to the surface or recirculating it in the well to match the fluid output to the recharge rate of the well which maintains the desired level. The pump will operate continuously, increasing the motor life. The SepTek system provides for full fluid discharge with no head loss or restrictions. It is constructed of a PVC body, brass bypass valve, cast bronze and stainless steel linkage. TR-586 SepTek with 1-in Inlet and Discharge 22 lb 21

SUBMERSIBLE PUMPS Fluid Level Control PumpSaver Submersible pump protector Three-phase PumpSavers PumpSavers are optional pump monitors designed to protect single- or three-phase submersible electric pumps from dry wells, dead head, jammed impellers, rapid cycling, over/under voltage, and, depending on the model, other conditions. They protect 2- or 3-wire pumps from 1/3 hp to 3 hp. Single-phase PumpSavers PumpSaver, TR-2604 PumpSaver, TR- 2601 Informer, TR- 2606 Single-phase PumpSavers measure the power factor, voltage and current. These measurements are collected and analyzed by a microcontroller which, under precise conditions, trips a built-in relay to shut off the pump motor to prevent damage. Three-phase PumpSavers combine a voltage relay, an underpower relay and an electronic overload relay into one device to provide optimal protection. The underload trip is based on power which is desirable when the current vs. load characteristic in non-linear or has little change which is the case with these relatively small motors. A calibration adjustment allows models TR-2601 and TR- 2602 to be calibrated to specific pumping applications, thereby reducing the possibility of false or nuisance tripping. When an abnormality (such as would occur in a loss of suction) in power fluctuations, overcurrent, or undercurrent is detected, The PumpSaver deactivates its output relay and directly disconnects the pump motor. The unit then begins its user-selectable re-start delay (dry-well recovery) timer. When the timer counts to zero or power is removed and reapplied, the PumpSaver reactivates its output relay and turns the pump back on. An infrared LED can communicated directly with the Informer (sold separately). The Informer is an optional diagnostic tool for use with TR-2601 and TR-2602. This hand-held device reads values from the LED on the PumpSaver and displays 15 parameters including real-time voltage, current, and power; dry-well and overload trip points; calibration voltage; voltage, current, power at last fault; highest/lowest voltage and current since last calibration; model number. Note: The use of restrictors or unusually high head pressures at the time of calibration may interfere with the detection of dead head conditions. Typical wiring diagram for TR-2604 22

SUBMERSIBLE PUMPS Fluid Level Control Motor Monitoring Device Communications Module, TR- 2608 The Remote Motor-Monitoring Device improves safety for service and operations personnel by allowing them to control and monitor the PumpSaver (TR-2603, TR-2604, and TR-2604 only) without opening the control panel. It requires a Communication Module on each PumpSaver to enable the Modbus communications function. One Remote Motor- Monitoring Device can monitor up to 16 PumpSavers In addition to monitoring functions, the Motor-Monitoring Device can reset a tripped PumpSaver. The enclosure is NEMA 3R outdoor rated and is easily mounted on the front of a panel. One device can control up to 16 PumpSaver units through an RS-485 network using Modbus TRU protocol. A second communication port allows monitoring and control from a computer, PLC, or SCADA system. The Motor-Monitoring Device displays: Individual line currents and average current Current unbalance Individual phase voltages and average voltage Voltage unbalance Present fault trip reason and restart timer status Last four faults PumpSaver setpoints Run-hours on each motor Warning of pending (imminent) faults The Motor-Monitoring Device controls: Motor-Monitoring Device, TR- 2607 Reset run-hour metre Reset PumpSaver Clear last fault in PumpSaver Change set point for the Motor-Monitoring Device PUMPSAVER SELECTION TABLE Part Nr TR- 2601 TR- 2602 TR- 2603 TR- 2604 TR- 2605 Load Range (hp) 1/3-1 1/3-1.5 1/3-3 1/3-3 3-7.5 Phase 1 1 3 Line Voltage [V (ac)] 115 230 95-240 190-480 Frequency 50*/60 Hz Low Voltage High Voltage Contact Failure Linear Trip Delay Low Kilowatt Trip Point Low Horsepower Trip Pt. Underload/Undercurrent UL Listed Overload Overload/Overcurrent Current Unbalance Rapid Cycling Diagnostic Display (3 digit) Diagnostic LEDs Manual Reset Informer Compatible Motor-Monitoring Device (sold separately) * 50 Hz will increase all dealy timers by 20%. TR-2601 TR-2602 TR-2603 TR-2604 TR-2605 Options: TR-2606 TR-2607 PumpSaver 1/3-1.0 hp 115 V (ac), single phase, * PumpSaver 1/3 to 1.5 hp 230 V (ac), single phase,* PumpSaver, 1-9 A 240 V (ac), single phase PumpSaver, 1-9 A 190-480 V (ac), three phase PumpSaver, up to 7.5 hp 190-480 V (ac), three phase INFORMER diagnostic tool for singlephase PumpSavers. Batteries not included. Remote Motor-Monitoring Device (for TR-2603, TR-2604, and TR-2604). Requires communications module, TR- 2608 1.6 lb 1.6 lb 2.0 lb 2.0 lb 2.0 lb 0.5 lb 0.5 lb TR-2608 Communications Module (for TR-2607 ) * in NEMA 3R case with lens. 23

SUBMERSIBLE PUMPS Fluid Level Control Water Level Monitoring Titanium Pressure Transducers Designed for compatibility with industrial data loggers, the titanium pressure transducer is used to monitor pore-water pressure and water levels. Typical applications include monitoring water levels in pumping tests or pore-water pressures in corrosive environments such as salt water and landfills. The titanium pressure transducer can be read continuously. All metal parts, including the diaphragm, are made from titanium for high resistance to corrosion. See page 36 for vented pressure transducers to monitor water level in wells and standpipes, and stilling basins installed in reservoirs and streams. Pump Centralizers Prevent pump hang-ups and improve cooling. Orifice for lead wires Upper Centralizer Electric Pump Lower Centralizer SPECIFICATIONS Dimensions Sensor Type Resolution Linearity Compensated Temp Range Over-Range Long Term Stability Supply Voltage Materials 0.625 diameter x 5.75 long Diaphram pressure transducer with Micron Technology semi-conductor strain gauges with a 4-20mA output. The built-in temperature device is a 3K ohm thermistor. 0.02% FS with a Campbell R10X and a 120 ohm resistor. ± 0.5 % FS BFSL 30 to 130 F 2 x rated range ± 2% FS/year or better 12-24 V nominal supply, 8 V min at the transducer. Wetted metal parts are made from titanium. The filter is polyethylene. The upper and lower centralizers are mounted at both pump extremities to guide the assembly past internal pipe irregularities such as those encountered on butt-fused PVC pipe. The centralizers improve laminar flow around the pump and allow the motor to operate at a cooler temperature. In addition to the centralizers, the set includes a nipple, a coupling with cable hook, and connecting rods. For 6-in dia. and larger wells. SEP IV pump assembly with optional pump c entralizer set Signal Cable Shielded cable with four 22-gauge tinned-copper conductors and polyurethane jacket. Two wires are used for the 4-20mA loop circuit. The other two wires are used for the thermistor. Readouts DataMate MP. See separate datasheet. Also: Industrial data loggers and readouts capable of supplying 12-24 volts to the transducer. Dimensions Materials SPECIFICATIONS 5 diameter x 4.25 long Centralizers: HMW Connecting rods: 304 stainless steel and HDPE Coupling and nipple: 304 stainless steel. TR-2495 Pump Centralizer Set 3 lb 56410020 Electro-Piezo, 4-20mA 20 PSI 1 lb 56410050 Electro-Piezo, 4-20mA 50 PSI 1 lb 56410100 Electro-Piezo, 4-20mA 100 PSI 1 lb 56410250 Electro-Piezo, 4-20mA 250 PSI 1 lb 50613524 Signal cable, 4-22g PU Alum Shld (sold per ft) 24

TUBING, HOSE, CABLE TUBING, HOSE AND CABLE DGSI supplies an extensive range of tubing and hose for use with our remediation, ground water sampling and well development pumps. Tubing and hose are used for the fluid discharge and air supply lines. It is very important to insure chemical compatibility with the fluids that will be pumped. When distinguishing between tubing and hose, it is important to note the following: When selecting tubing or hose, it is important to accommodate for the friction losses that will occur based on the lengths being used. Tech Tip: Tubing is measured by the O.D.; Hose is measured by the I. SELECTION TABLE FOR TUBING, HOSE AND SUSPENSION CABLE Part Nr. Description Used With Following Pumps Application Max.. Pressure TUBING TR-737 1/2 in ID X 5/8 in OD Polyethylene Tubing D-16/SS16, D-25 Inertia Air Supply TR-736 3/8 in ID X 1/2 in OD Polyethylene Tubing Arch Pump D-13 Inertia TR-735 0.17 in ID x 1/4 in OD Polyethylene Tubing F.A.P. Plus, MVP, Evacuator Logic Air Supply Fluid Discharge 601614 1/8 O.D. x.095 I.D. Nylon 1/2 in. Mini Bladder Air Supply 601615 3/16 x.125 I.D. Teflon 1/2 in. Mini Bladder Discharge Down Well Air Supply TR-031 0.17 in ID x 1/4 in OD Teflon -lined Poly Tubing Mini Bladder (> 1/2 in) Fluid Discharge TR-033 0.17 in ID x 1/4 in OD Teflon -lined Poly Tubing x 1/4 in OD Poly Bonded Mini Bladder (> 1/2 in) Air Supply Fluid Discharge TR-034 1/4 in Poly x 3/8 in Teflon -Lined Bonded Tubing Mini Bladder Air Supply Fluid Discharge TR-023 3/8 OD Teflon -lined Poly Tubing Mini Bladder Drop Tube TR-025 0.17 in ID x 1/4 in OD Dual Bonded Poly Tubing Mini Bladder Air Supply, Fluid Discharge TR-030 3/8 in ID x 1/2 in OD Teflon -lined Poly Bonded to 0.17 in ID x 1/4 in OD Poly Tubing Standard Bladder Air Supply, Fluid Discharge TR-0300 3/8 in ID x 1/2 OD Teflon -lined Poly Tubing Standard Bladder Discharge HOSE 200 psi TR-743 1 in ID Buna-N Hose MVP Fluid Discharge 300 psi TR-733 3/4 in ID Buna-N Hose MVP Fluid Discharge 250 psi TR-734 3/8 in ID Buna-N Hose F.A.P. Plus MVP Fluid Discharge and/or Air Supply; Air Exhaust TR-732 1/2 in ID Buna-N Hose F.A.P. Plus Fluid Discharge and/or Air Supply TR-38901 1/2 in ID x 3/4 in OD PVC Hose Sample Plus Fluid Discharge and/or Air Supply TR-390 TR-389 TR-777 1/2 in ID x 5/8 in OD Teflon -lined Hose with Tefzel Power Cable (all encased in PVC sleeve) 1/2 in ID x 5/8 in OD PVC Hose with Tefzel Power Cable (all encased in PVC sleeve) (1) 3/4 in ID, (1) 3/8 in ID Buna-N Hoses with 1/4 in OD Nylon Tubing TR-731 (1) 5/8 in OD Nylon, (1) 1/2 in OD Nylon, (3) 1/8 in OD Nylon Hoses (all encased in PVC sleeve) SUSPENSION CABLE Sample Plus Sample Plus MVP Evacuator II Fluid Discharge and Power Cable Fluid Discharge and Power Cable Down Well Hose Assembly Down Well Hose Assembly 918702 Nylon -Covered Stainless Steel Stranded Cable Safety Suspension Cable for Pumps in Down Well Applications 250 psi 200 psi 200 psi 200 psi 200 psi 250 psi 250 psi Download datasheets, manuals, and technical notes from www.durhamgeo.com 25

SOLAR-POWERED REMEDIATION SolarNAPL SolarRem Solar-Powered Remediation System Application The SolarRem system can be configured for the following applications: LNAPL recovery DNAPL recovery Gas condensate recovery Groundwater pumping Air sparging Description NEMA 4 control panel with PLC 7.5 gallon receiver tank One 100 W solar panel 105 Ah AGM battery Tank full shut-off SolarRem is a patented solarpowered air compressor which can be configured to run various pneumatic pumps or used for air sparging. These pump assemblies are optional. Because it uses the sun s energy a renewable resource as the only power source necessary to operate recovery pumps, the SolarRem system is particularly friendly to the environment. Installation Advantage SolarNAPL System (TR-51600) The SolarNAPL System is configured to provide an air source to power the optional F.A.P. Plus pump skimming system for product recovery. The system uses a solar panel to charge the special AGM deep cycle battery specially designed for use in solar applications. The battery powers the internal DC compressor. The control panel includes a PLC allowing the operator to set system On/Off times consistent with the air requirements of the pump. The On/Off times are user defined and based on the amount of product to recover, the well s recovery rate, and the F.A.P. Plus pumping rate of approximately 0.18 gpm. The standard SolarNAPL will recover between 15 to 25 gallons of product per day depending on its location. Systems are designed based on hours of sunlight. Additional solar panels and batteries may be required to achieve optimum performance for your specific site. Contact Durham Geo Slope Indicator for recommendations on solar panels and battery ampere-hour capabilities for your site. Tech Tip: The SolarNAPL control panel is not rated for use in XP areas. For application such as inside tank farm berms, the units can be pole mounted above the XP area. The standard SolarNAPL System includes the NEMA 4 control panel, a 7.5 gallon air receiver tank, one 100 W solar panel, a 105 A h Advanced Glass Matte (AGM) battery and the Tank Full shut-off. The Tank Full shut-off turns the air supply to the pumping system off when the product tank is full. The F.A.P. Plus Pump (TR-516), skimmer (TR-517), solar panel mounting pole (TR-51613) and the bracket (TR-51615) must be purchased separately. SolarRem systems are predesigned, compact, easy to SolarNAPL, TR-51600, in field application. install and operate. They can be Recovery drum and accessories not included. installed and operated at remote sites quickly without the need for an external power source. This minimizes construction costs and saves time and coordination efforts while avoiding costly delays. These advantages are particularly meaningful during installation on tank farms where costly trenching and the process of identifying underground lines are avoided. Tech Tip: The SolarNAPL System can be configured to operate multiple F.A.P. Plus Skimming Pumps and can be trailer mounted for greater onsite mobility. Download data sheets, manuals and technical notes from www.solarrem.com SolarRem is a registered trademark of the SolarRem Corporation 26

SOLAR-POWERED REMEDIATION SolarSparge SolarSPARGE System (TR-51680) This system can also be configured with a high flow, low pressure air compressor for air sparging applications. The standard SolarSPARGE system will produce 0.79 cfm at 25 psi. In a typical application, the system will produce 160 ft ³ /day of air flow for a 20 ft water column (20 psi). The solar panel and batteries will be sized according to your location and air flow requirements. At a minimum, we use the 100 W solar panel and 105 A h battery. The 1/6 hp air compressor produces 0.20 cfm at 20 psi. The NEMA 4 control panel allows to select air flow and times. SPECIFICATIONS for SolarRem SolarNAPL Compressor Pump Type Max.. Rated Pressure Operating Flow Rate Oper. Pressure Range Piston Pump 100 psi Hysteresis (Dead Band) 20% Air Connection Line Housing Type Air Receiver Tank Capacity Battery Solar Panel Capacity Dimensions (W x H x D) Capacity Type 0.79 scfm at 0 psi 0.24 scfm at 100 psi 25-100 psi PushLock fittings. NEMA 4 metal box 7.5 gal 105 A h Advanced Glass Matte (AGM) 110-120 W SolarNAPL, custom mounted on dual axle trailer (TR-51660). Compressor Assembly 28 x 36 x 15 in Solar Panel 59 x 29 x 2 in Battery w/ case 14.5 x 17 x 14 in Weight Total 210 lb Compressor Assembly 105 lb Solar Panel 30 lb Battery w/ case 75 lb Ship. Volume 9 ft³ TR-51600 SolarNAPL Control System. 210 lb Supplemental Items (if required): TR-51610 Solar Panel, 100 Watt TR-51611 Solar System Battery, 12 V, 105 Ah, AGM type TR-51612 Solar System Battery, 12 V, 200 Ah, AGM type TR-51613 Solar Panel Mounting Pole, Single TR-51615 Solar Panel Bracket Options: TR-51660 Dual axle trailer Related Items: TR-516 F.A.P. Plus Pump TR-517 F.A.P. Plus 36" Travel Skimmer TR-70410 4 High Viscosity Density Rod Skimmer (30 travel) 27

LOW FLOW SAMPLING Mini Bladder Pumps LOW FLOW SAMPLING Mini Bladder Pumps (MBP) Specifically Designed for Low Flow Sampling pump. The annular space is pressurized using the controller and the liquid is gently lifted to surface. All pumps can be supplied contaminant free. Application Low-flow ground water purging and sampling 1/2 in and larger-diameter schedule 40 wells Description The MBP pumps consist of: PVC or SS outer body Teflon bladder ½, ¾, 1, 1.3 and 1.66 in dia. The pneumatic Mini Bladder Pumps are designed to obtain a representative ground water sample with the assistance of a controller to provide variable flow rates. The controller allows the user to match the pumping rate to the well recharge rate, limiting the stress on the formation. With the small volume per cycle, the fluid velocity at the pump inlet is substantially reduced, making the pumps ideal for low flow sampling. The high efficiency design enables pump rates from 5 ml to nearly 2 L/min when used with one of our Precision Dual Range Controllers. The 1.66 in diameter pump will produce flow rates up to 2 gpm. Tech Tip: The amount of pump submergence will affect the pump flow rate. Pump curves were developed with 10 ft submergence. The bottom inlet of the pump is positioned at the desired sampling point, generally at the mid section of the well screen. The inner Teflon bladder will fill with fluid based on the submergence of the Models for wells down to ½ in and depths to 400 ft. Stainless Steel or PVC. Tech Tip: In portable applications, the pump is easily decontaminated by submersing it in a cleaning solution such as Alconox. Then the pump is cycled to circulate the solution through the internal components. This method avoids the need to replace bladders after each use. Dedicated assemblies can be supplied to reduce cross contamination, well disturbance and facilitate installation. The pump, tubing and well cap assemblies are plastic bagged and each assembly is identified with your well ID number and the well depth. Contaminant-Free Certification Upon request, ground water sampling pumps may be supplied as certified to be contaminant free. The rinse water from the equipment is analyzed by one or all of the following methods by an independent and accredited laboratory. EPA Method 624 (Purgeable Aromatics) EPA Method 625 (Base/Neutral Extractables) Selection Table Flow Rates on Page 34 * Depths over 250 ft require the use of a drop tube (TR-041) Type Stainless Steel PVC Reference Diameter 1/2 in 3/4 in 1 in 11.3 in 1.66 in Body Length (nom.) 118 in 18 in 18 in 1414 in 20 in Stroke Volume 20 ml 51 ml 95 ml 135 mln 175 mln Max.. Lift 100 ft 150 ft 150 ft 150 ft 200 ft* Tubing Size 1/4 x 1/4 in 1/4 x 1/4 in 1/4 x 1/4 in 1/4 x 1/4 in 1/4 x 3/8 in Weight 12 oz 12 oz 18 oz 14 oz 2 lb Materials Body: 304 Stainless Steel. Bladder: flexible Teflon Body: PVC. Bladder: Teflon Part Number TR-042 TR-037 TR-035 TR-070 TR-071 28

Precision Dual Range Controllers LOW FLOW SAMPLING Sample Plus Sample Plus DC Pump Systems Precision Dual Range Controllers allow precise control of the cycle time and the air pressure supplied to the bladder pump. This degree of control makes it easy to obtain a repeatable sample. Two independent air pressure regulators with gauges TR-03210 Compressor/Controller are provided to allow precise control of the applied pressure in ranges of 2-50 psig and 5-100 psig. The encapsulated timer module provides accurate, independent timing of the pressure and exhaust cycles from 0.1 to 10 seconds. The standard controller has no compressor and requires an external air source. Alternatively and for convenience, we offer a compressor/controller with a built-in, DC powered compressor. This unit is designed for use in wells with depths of 50 ft or less. An external air source can be used for deeper applications. Both Controllers are powered by an internal lead acid gel cell battery. The standard controller (without compressor) will operate continuously for approximately 2-3 days. The controller with built-in compressor will operate continuously for approximately 1½ hours on a fully charged battery. The use of an external 12 V marine battery is recommended for longer operating periods. Includes 110 V (ac) charger and 12 V auto adapter. TR-032 TR-03210 Tubing, Cable Precision Dual Range Controller Precision Dual Range Controller w/ Built-in Compressor For a comprehensive selection table, see page 19. TR-033 TR-034 TR-030 TR-025 TR-031 TR-023 TR-027 TR-028 TR-029 1/4 in Teflon-Lined Poly x 1/4 in Poly Bonded Tubing 1/4 in Poly x 3/8 in Teflon -Lined Bonded Tubing Poly Tubing, 1/4 in Bonded to 1/2 in Teflon Lined 1/4 in Poly x 1/4 in Poly Bonded Tubing 1/4 in Teflon-Lined Polyethylene Tubing 3/8 in Teflon-Lined Polyethylene Tubing 2 in Well Head Ass'y for Bladder Pumps 4 in Well Head Ass'y for Bladder Pumps 6 in Well Head Ass'y for Bladder Pumps 918702 Nylon -Coated Stainless Steel Cable TR-038 TR-041 Freeze Protection Kit for Mini Bladder Pump Drop Tube Kit Application Low-flow purging and ground water sampling 2 in and larger-diameter schedule 40 wells Description Variable speed electrical submersible pump DC up to 125 ft depths AC for 250 ft depths Stainless steel and Teflon construction Tefzel round motor cable The Sample Plus Pumps are used with a power inverter (which must be purchased separately) to provide variable flow rates from 5 ml up to 5 gpm. The inverter is shown above with an additional Six- Stage pump. The pump produces a laminar flow making it ideal for low flow sampling. The six stage pump can be powered by a battery or 115 V AC power. The single stage AC pump uses 115 V and requires a 1200 W (minimum) generator. The Sample Plus Pump is constructed of chemically inert stainless steel and virgin Teflon. It is specifically designed for use in wells relatively free of silts and sands and should not be used for well development. Pump maintenance is simple. The Sample Plus is designed for the replacement of individual components rather then purchasing a complete new pump. The inverter s digital display of the speed makes it easier to produce repeatable flow rates. Tech Tip: For decontamination, the pump end can be unthreaded to access the impeller system or Alconox can be circulated through the pump. SIX-STAGE PUMP Min Well Dia. 2 in 2 in Max.. Depth 125 ft 250 ft SINGLE-STAGE PUMP Flow Rate 75 ml up to 2.2 gpm 100 ml to 5.5 gpm Power Inverter 12 V DC or 115 V single phase AC power. Feature allows the pump to operate from a battery or a small portable generator capable of producing 290 watts. 115 V or 230 V Sample Plus Single Stage Pump Inverter. Requires 1250 W generator. These pumps may be incorporated on the Real Plus System. The power inverters must be ordered separately. 29

GROUND WATER PURGING Ground Water Purging and Sampling GROUND WATER PURGING AND SAMPLING Peristaltic Sampling Pump Ideal for sampling and purging to 25 ft Application Ground water purging and sampling to 25 ft Sampling direct-push wells Sampling streams, ponds, lakes Sampling tanks and drums, manholes, culverts Sampling waste water The TR-200 Peristaltic Sampling Pump is a lightweight, compact, battery powered pump providing a fast, dependable and economical means of sampling fluids in the field. Model TR-200 is self contained and does not require an external controller. Operating Principle Pumping Rate* Back Flush Rate Suction Lift (Max..) Current Consumption Overcurrent Protection Operating Voltage Operating Temperature Pump Tubing Suction and Discharge Hose Power Estimated Run Time Enclosure Dimensions (W x H x L) Shipping Weight TR-200 Accessories TR-3014 TR-3013 TR-205 TR-735 TR-925 SPECIFICATIONS Peristaltic Sampling Pump, 12 V (dc) Battery and 10 ft power cord are included. Rechargeable Battery (12 V, 7.5 A h) Smart Battery Charger Peristaltic pump (2 rollers) 0 to 500 ml/min. Adjustable. Your flow rate will vary with the lift and battery charge. Same as pumping rate 25 ft (7.6 m) maximum with water 2.5 A (typical) Auto reset with indicator light 12 V (dc) 35 to 160 F (2 to 70 C) 3/8" OD x 3/16" ID unreinforced silicone tubing. Certifications: FDA, NSF 51, SEG Incinerable. Optional 12 V, 7.5 A h gel cell battery. Rechargeable. Includes power cord 4 hr (approx.) at full battery charge 2 hr (approx.) at LOW battery level Water resistant. Tough ABS plastic construction. 9.5 x 7.5 x 6 in (241 x 190 x 152 mm) 10 lb (4.5 kg) with battery * with 25 ft of 1/4" OD suction hose and 0 ft head, and full battery charge. Pump Head Kit (Pump Head Tubing, 3/8 in O.D. x 1 ft, pack of 5) 10 lb 1/4 in OD Suction Tubing, Polyethylene. Sold per ft. Carrying Bag (all-weather canvass) The high-precision digital control and display provides precise flow control and reference settings when purging or sampling which is important for repeatability. Warning lamps show battery condition. Variable flows from 0 to 500 ml/min. Same flows in reverse for line purging. Run up to 4 hours on the internal battery or indefinitely on an external, automotive type 12 V battery when using the Pump Power Kit (included). 30 Tech Tip: Check your sampling protocol as the peristaltic type of pump may be not recommended for sampling VOCs. The flip cover makes it easy to inspect or change the pump head tubing. The suction and discharge hoses are easily cleaned or replaced. All this minimizes decon time. TR-200 shown with the power supply kit (included). Kit comprises 10 ft DC power cord which may be connected to the cigarette lighter adapter or the alligator clips.

Section 1 GROUND WATER PURGING Ground Water Purging and Development DC Purging Pump Economical submersible pump Diffusion Samplers Sample VOCs without Bailing or Purging Application Purging, sampling and developing wells to a depth of 60 ft Application Passive VOC sampling at discrete intervals in groundwater The DC Purging Pump provides an easy-to-use, high-quality and economical solution for purging and developing wells to a depth of 60 ft. Two models are offered. The Single Pump (TR-040) can deliver 5 gpm at ground level (zero head) and pump water at depths TR-040 of up to 45 ft. The Tandem Pump (TR-060) can pump from depths of up to 60 ft. The pumps require between 8 and 14 V to operate and will achieve maximum flow at 14 V. TR-040 Single DC Purging Pump with 50 ft of Cable 1.5 lb TR-060 Tandem DC Purging Pump with 65 ft of Cable 3 lb Accessory TR-207 Cigarette Lighter Assembly Description The Diffusion Sampler comprises the sampler, a stainless steel hanger and a stainless steel weight. The semi-permeable sample chamber filled with deionized water (purchased separately). It is lowered into the well screen and left in place. VOCs in the groundwater diffuse into the sampler until the concentration gradient equilibrates between the water in the formation and the sampler. The sampler is retrieved and contents easily emptied into VOA vials for laboratory analysis. These samplers are currently in use at U.S. D.O.D. sites, EPAmonitored sites, major industrial sites and small petroleum monitoring sites across the U.S. Diffusion sampling technology is licensed by the U.S. Government yielding results that correlate with bailing. TR-10200 12 V* Sampling Pumps High-Performance submersible pumps Application Purging and low-flow sampling to 200 ft TR-10200 Diffusion Sampler - 350 ml (disposable) TR-10096 Stainless Steel Hanger (reusable) TR-10095 Stainless Steel Weight, Standard (reusable) TR-10098 Stainless Steel Weight, X-Heavy (reusable) TR-10097 Optional Fill Device (Reusable) We can supply custom-made tethers and well caps with hangers. The Monsoon and Mega- Monsoon are PVC pumps for pumping depths of 120 and 200 ft, respectively. They require an optional sampling controller. 1.7 in O.D. The SS-Mega-Typhoon is a stainless steel pump which weighs only 13 lb and runs off a 12 V automotive or dry cell battery. Low-flow Stainless Steel Mega-Typhoon with controller (not included) sample as low as 10 ml/min. Easy to read LCD display. 1.82 in O.D. Discharge: 3/8 in. 10 A. * Pumps are powered by 12 V source and a booster/controller. Performance of the SS-Mega-Typhoon: Pumping Depth (ft) 3 10 20 30 40 50 60 70 80 Flow (gpm) 3.5 3.0 2.75 2.55 2.00 1.25 1.00.50.25 TR-061 SS-Mega-Typhoon w/ controller and 90 ft wire 13 lb TR-062 TR-063 Accessories TR-080 TR-081 TR-083 PVC Monsoon w/ 130 ft wire PVC Mega-Monsoon w/ 210 ft of wire Controller for High Flow PVC DC Pumps Battery Adapter Quick Connect Controller for DC SS Mega Typhoon 31

GROUND WATER PURGING Ground Water Purging and Development Arch Pneumatic Pump Application Developing 2 in and larger wells FIELD SUPPORT EQUIPMENT Cap Cop Protection Vaults This pump will produce flow rates up to 2.5 gpm and can be used as a surge block by moving the pump up and down while pumping. The simplicity of the pump results in excellent performance when used in silty well conditions. The pump design provides easy component access, consisting of a stainless steel pump body and head, a Buna-N bottom check valve and a stainless steel fluid discharge line with a check valve. Pneumatic Arch Pump Controller The Arch Pump Controller is used to set the intake and discharge times that regulate the pumping rate. The controller must be supplied with clean dry air at a maximum pressure of 40 psi. A filter regulator is used to optimize air pressure. It should be ordered separately. An optional Quick Exhaust Valve produces higher flow rates in deep applications. The Cap Cop Vaults have become the industry standard for completing recovery wells in traffic areas. Made from zinc plated steel, they provide the strength needed for a 10,000 lb single axle wheel load. The design includes a neoprene seal inside the cover and a cam-lock security system that is water and dust resistant. We offer a 36 in vault with gas assisted lift supports. Available in five standard and custom sizes. TR-602 Arch Pump, 1.65 x 32 in with ⅜ in fittings 5 lb TR-600 Arch Pump Pneumatic Controller TR-738 Coalescing Filter Assembly with Shut Off TR-739 Coalescing Filter Assembly with Regulator TR-755 3/8 in Quick Exhaust Valve TR-736 1/2 in O.D. Polyethylene Tubing (Sold per ft) TR-603 Repair Kit (Includes check balls and "O" rings TC-730 Cap Cop Steel Vault, 8 x 8 in; 8 in skirt 16 lb TC-731 Cap Cop Steel Vault, 11 x 11 in; 12 in skirt 28 lb TC-732 Cap Cop Steel Vault, 17 x 17 in; 24 in skirt 80 lb TC-733 Cap Cop Steel Vault, 21 x 21 in; 24 in skirt 106 lb TC-737 Cap Cop Steel Vault, 36 x 36 in; 36 in skirt 186 lb Total Dynamic Head (feet) 230.7 184.6 138.4 92.3 (psi) 100 80 60 40 Pp=100 Pp=80 Pp=60 Pp=40 Pp=40 Pp=60 Pp=80 Pp=100 Download datasheets, manuals, and technical notes from www.durhamgeo.com 46.1 20 0 0 0 1 2 3 Flow Rate (gpm) / Gas Consumption (scfm) Pump Volume = 0.2166 U.S. Gallons Pp = Operating Pump Pressure (psi) 32

Protection Vaults Section 1 FIELD SUPPORT EQUIPMENT Hand Augers Quick Connect Automatic Stormwater Samplers Collect composite or discrete samples automatically when criteria are met. No need to be on site to get a sample! Automatic Stormwater Samplers minimize unnecessary (and costly) site visits and the risk of missing a rain event of significance and potential fines. They collect and document site-specific rainfall data and sampling times. The Hand Auger with unique hard-faced and cupped blades is ideal for augering shallow holes in fine grained soils. Little effort is needed to turn the auger and advance the hole as the blade diameter exceeds the bucket diameter to produce a 3-5/8 in diameter hole. S-110 and S-111, Hand Auger Assemblies, consist of an auger head, tee handle and an extension with connectors. A cross handle with rubber grips is optional. An all-stainlesssteel hand auger assembly is available for environmental sampling. The Hand Auger features: Heavy gauge, heat treated carbon steel bucket for long life with cupped blades of unique design to facilitate hole advancement. Zinc electroplated for rust resistance. Quick connect pins avoid use of wrenches. All stainless steel hand auger assembly is available for environmental sampling. A special windowed bucket is available for use in sticky clay soils. Standard Hand Auger Kits S-110 Standard Hand Auger Assembly. 6 lb S-11004 Standard Auger Kit, 3¼ in. Includes: (1) Standard 3¼ in Bucket, (4) 3 ft Extensions, (1) 16 in T-Handle. 10 lb S-111 Stainless Steel Standard Hand Auger Assembly 6 lb Windowed Hand Auger Kits S-110M Windowed 3¼ in Hand Auger Kit 6 lb S-1104M Windowed (Open) Auger Kit, 3¼ in 10 lb Models may be activated by rain, water level and/or time increments. Applications include NPDES, Watershed Assessments, TMDLs, Erosion and Sedimentation Control, and more. Cyber Rain Gauge Monitor rain events remotely without costly site visits. Receive alerts when rainfall amounts and/or rain intensity has reached user-defined values. Obtain and record site-specific rainfall data on a near real-time basis. This self-contained unit receives data from the self-emptying tipping bucket rain gauge and automatically reports rainfall amounts to our secure web site through a wireless, global satellite communications network. Data can be accessed by subscribing customers through a common Web browser at anytime from any computer connected to the Internet. From there, data can be downloaded to your desktop for manipulation and graphing if desired. TR-2000 Cyber Rain Gauge (requires web service) 22 lb SW-100 Download data sheets, manuals, and technical notes from www.stormwatersamplers.com Web subscription, basic service. Term: 1 year We carry a full complement of replacement parts. Please call. 33

INSTRUMENTATION INSTRUMENTATION Water Level Indicators Simple, Effective Direct Reading. Now with Laser-Marked Cable Application Measure water levels in standpipes or wells. Water Level Monitoring System Ideal for Data Logging Application Monitor water level in wells and standpipes, and stilling basins installed in reservoirs and streams Description Vented VW Pressure Transducer VW (Vibrating Wire) MiniLogger Vented VW Pressure Transducer Description Aluminum reel Graduated round polyurethane cable 3/8 in stainless steel probe Light and buzzer indicate contact with water 1/100 ft cable markings (laser marks cannot be rubbed off) The probe is lowered down the well until the bright LED and piezo-electric beeper signal contact with water. Depthto-water measurement is read from round cable. The efficient power circuits provide long battery life and a built in sensitivity adjustment. The unit will automatically shut off after 10 minutes of non-use and is powered by a 9 V battery. Durable reel features 1/8 in aluminum walls and bronze bearings. The VW pressure transducer converts water pressure to a frequency signal via a patented arrangement of diaphragm, a tensioned steel wire, and an electromagnetic coil. The data recorder or data logger stores the reading in Hz. Calibration factors are then applied to the reading to arrive at a pressure in engineering units. The vented pressure transducer is designed for low pressures and has a range of 0 to 1.5 bar (22 psi). The large diameter vent tube provides quick response to changes in atmospheric pressure and cannot be blocked by condensation. The large capacity, low maintenance desiccant chamber (optional) keeps vent tube dry for 3 to 6 months. 34 Water Level Indicators with Cable Graduated in Feet 51690010 WLI with 100 ft cable, 6 in reel, handle (no stand) 4.0 lb 51690015 WLI with 150 ft cable, 9 in reel, stand 5.5 lb 51690030 WLI with 300 ft cable, 9 in reel, stand 7.5 lb 51690050 WLI with 500 ft cable, 11 in reel, stand 11 lb 51690100 WLI with 1000 ft cable, 11 in reel, stand 17 lb Water Level Indicators with Cable Graduated in Meters 51690303 WLI with 30 m cable, 150 mm reel, handle 4.0 lb 51690310 WLI with 100 m cable, 230 mm reel, stand 9.0 lb 51690315 WLI with 150 m cable, 280 mm reel, stand 11 lb TR-925 Carrying Bag (all-weather canvass) 3 lb 52612402 Vented Pressure Transducer 50614410 Vented Cable (Specify feet or meters) 50614415 Splice Kit for Vented Cable; includes componenets to splice 5 conductors and vent tube. 52612495 Dessiccant Chamber 52613500 VW Data recorder 52613310 VW MiniLogger (see description in the next column) We offer other types of piezometers. Visit www.slopeindicator.com for a complete listing.

INSTRUMENTATION VW (Vibrating Wire) MiniLogger The VW MiniLogger is a reliable, low-cost datalogger designed to monitor a single VW piezometer. It takes just minutes to learn how to use the MiniLogger. There are no programs to write, no switches to set and only four wires to connect. The field-ready MiniLogger is rated for temperatures from -20 to +500ºC, and its resin encapsulated electronics are completely protected from effects of humidity and condensation. Powered by two D-cell batteries, the MiniLogger runs for up to 6 months and can store 8000 readings in secure, non-volatile memory. The MiniLogger can be set to start recording at a specific time so that the readings may be synchronized with other MiniLoggers, and the reading interval can be set from 30 readings per minute to one reading per week. The MiniLogger Manager program, included with the MiniLogger, is used to set the MiniLogger s reading schedule and to retreive recorded readings via a standard RS-232 serial connection. The MiniLogger Manager program stores retreived readings in an ASCII file, ready to import into a spreadsheet. The file contains time, date, rawreadings, readings in engineering units, and temperature in 0ºC. 52613310 VW MiniLogger. Includes batteries, interface cable, MiniLogger Manager software and user manual. 2 lb Product/Water Interface Probe Detects and Measures LNAPL or DNAPL Application Measures the thickness of floating or sinking products in monitoring wells or storage tanks Detects the presence of water in storage tanks. 7/16 or 5/8 in probe for use in small wells. Description Aluminum reel Flat Tefzel-coated tape 1/100 ft markings Light and buzzer indicate water or product The Product/Water Interface (PWI) Probe consists of a 5/8 or 7/16 in probe attached to a flat tape with a Kynar jacket. It uses an optical (infra-red refraction) sensor to detect the product layer and conductivity for the water. The probe is lowered in the well and when it makes contact with the product layer it provides a pulsating tone. As the probe is lowered into the water a solid tone is emitted. The PWI incorporates a sensitivity adjustment to eliminate false positive readings. The PWI has an automatic sleep mode to turn the unit off after 10 minutes of non use. The smart electronics will tolerate scratches and condensation on the optical sensor reducing maintenance. Operates on 9 V battery (included). 9.25 in dia. face plates, 14 in overall height. Tech Tip: Because viscous oils may adhere to the probe, we suggest passing the probe through the product layer and record your readings while retrieving the probe. TR-921 Product/Water Interface Probe, 5/8", 100 ft 8 lb TR-922 Product/Water Interface Probe, 7/16", 100 ft 8 lb TR-923 Product/Water Interface Probe, 5/8", 30 m 8 lb TR-924 Product/Water Interface Probe, 7/16", 30 m 8 lb Accessory: TR-925 Carrying Case (all-weather canvas) 35

ANNEX Forms Name: Number: SAMPLING PUMP REQUIREMENTS FORM (sheet of ) Project Customer Information Name: Title: Contact Location: Phone: Fax: Description: E-mail: Well Information (please specify unit of measure) Specification 1 2 2 4 Well Ref #: Well Diameter: Total Well Depth: Casing I.D.: Casing Material: Locking Cap (LC) or Slip Cap : LC / SC LC / SC LC / SC LC / SC Static Water Level*: Screen Length: Freeze Protection Required: Yes No Yes No Yes No Yes No Drop Tube Required: Yes No Yes No Yes No Yes No Drop Tube Length: Pump Tubing Material: Recharge Rate: Required Pump Flow Rate: Pump Type: Pump Construction: PVC/Teflon Bladder SS/Teflon Bladder Pump Controller Required: Yes No Yes No Yes No Yes No Plastic Wrapped Required: Yes No Yes No Yes No Yes No Special Cleaning Requirements: NOTE: Upon request, ground water sampling pumps supplied by Durham Geo Slope Indicator may be supplied as certified contaminant-free. The rinse water from the equipment is analyzed by EPA Method 601 (Purgeable Halocarbons) and EPA Method 602 (Purgeable Aromatics) by an independent and accredited laboratory. Circle the required type * from top of casing. Prepared by: Name: Signature: Date: 36

REMEDIATION SITE ASSESSMENT FORM FAX the form back to Durham Geo Slope Indicator Fax: 1-770-465-7447 Company: CUSTOMER INFORMATION Phone: E-Mail: Fax: Contact: Street Address www.durhamgeo.com solutions@durhamgeo.com ANNEX Tel: 1-800-837-0864 770-465-7557 Title: Date: City: State: Zip Code: SITE INFORMATION Forms Site Location: Job Reference #: RECOVERY METHOD Total Fluids Dissolved Product Leachate Gas Condensate LNAPLDNAPL Dual Pump Other Solar Sparge Solar Vent Solar NAPL WELL INFORMATION Number of Wells: (If site has more than 12 wells Complete this section on another form and submit it.) 1 2 3 4 5 6 Well Identification: Well Diameter (ID): in or cm Total Well Depth: ft or m Product/Water Depth: ft or m Product Thickness: in or cm Water Table Rise/Fall ft or m Seasonal / Tidal: PRODUCT INFORMATION Type of Product: Product Viscosity: SSU Discharge Head: ft or m Expected Flow Rate: Gallons Per D/H/M AIR INFORMATION Distance to Air Source: ft or m Air Supply Line (ID): in or mm Discharge Hose (ID): in or mm Dist. to Recovery Tank: ft or m Air Compressor: CFM or m³/hr. Filtration on Compressor: Yes or No OTHER Special Site Conditions: Comments: Comments: Comments: Delivery Date Required: Site Plan Available: Yes No Bidding Phase: 37

ANNEX Compressed Air Air Compressors We can supply air compressors for all types of environmental applications. From 3/4 HP oil-less designs for ground water sampling up to 15 HP models for remediation projects. Selecting the optimum air com pres sor system will ensure effi cient operation and reduce the need for main te nance and repairs. A correctly sized, good quality air com pres sor will provide years of trouble free operation. Two factors need to be considered when selecting the op ti mum size and type of compressor, air volume and pressure. The air volume required, usually ex pressed as CFM (cubic feet per minute). This is the actual volume of air delivered by the compressor as measured when dis charged to the at mo sphere at a set pressure. Once the CFM re quire ments have been determined, the com pres sor can be selected. It is im por tant to allow for a 50% duty cycle for the compressor to prevent the system from cycling continuously. (See Tech Tip Below) An after cooler will reduce the temperature of the com pressed air. This will result in the water vapor condensing into droplets which will collect in the bottom of the receiver. An auto drain fi tted to the receiver will open automatically, allowing the water to drain. Tech Tip: Formula for determining total air fl ow (cfm) requirements: Total cfm required x 1.5 = Total cfm Example: If you are using two MVP IV Pumps each producing 3 gpm (1 cfm required per gallon pumped), your actual air requirements will be 6 cfm. Multiply this number by 1.5 (50% duty cycle) and your total cfm requirement will be 9 cfm. A compressor will turn approximately 7 cubic feet of ambient air into 1 cubic foot of compressed air. The net result is seven times as much moisture and con tam i na tion inside the com pres sor receiver and air lines. The com pres sion process will also increase the ambient tem per a ture of the air inside the receiver. Air com pres sors can generate over 20 gallons of water in an 8-hour op er at ing period. If not removed, the mois ture and contaminants can cause premature failure of the air lines and pumping equipment. Com pres sors should there fore include the following accessories: an aftercooler, a receiver autodrain and, depending on the climatic conditions where the com pres sor will be used, an air dryer. Flow (cfm) Flow Rate (lb/hr) Air Flow & Pressure Loss Tube Size 1/4 Tubing (.250 ID) 1/2 Tubing (.500 ID) 3/4 Tubing (.750 ID) 1 Tubing (1.00 ID) Velocity (ft/sec) Pressure Drop (psi/100 ft) Velocity (ft/sec) Pressure Drop (psi/100 ft) Velocity (ft/sec) Pressure Drop (psi/100 ft) Velocity (ft/sec) Pressure Drop (psi/100 ft) 0.5 2.42 24.45 0.60 6.11 0.02 2.72 0.002 1.53 0.001 1 4.84 48.89 2.39 12.22 0.07 5.43 0.010 3.06 0.002 2 9.68 97.78 9.56 24.45 0.30 10.86 0.04 6.11 0.01 4 19.37 195.57 38.25 48.89 1.20 21.73 0.16 12.22 0.04 8 38.74 391.14 152.99 97.78 4.78 43.46 0.63 24.45 0.15 16 77.47 782.28 611.96 195.57 19.12 86.92 2.52 48.89 0.60 32 154.94 1564.55 2447.83 391.14 76.49 173.84 10.07 97.78 2.39 64 309.89 3129.11 9791.31 782.28 347.68 347.68 40.29 195.57 9.56 38 Density = PV/RT P = Pressure, psi V = Volume, ft 3 R = Gas Constant (for Air) = 53.33 T = Temperature, degr Wh = Flow Rate, lb/hr = (60) x (Density, lb/ft 3 ) x (Flow Rate, cfm) Velocity, ft/sec = V (ft/sec) = {[(25,000) x D (in) x P (oz-f/in 2 )] / L (ft)} 1/2 Pressure Drop, lb/in 2 = [ ( (L, ft) x (Velocity, ft/sec) 2 ) / ( (25000) x (d, in) ) ] / (16 oz/lb) = psi Density of dry air @std temp & pressure = 0.0807 lb/ft3 Cells highlighted in dark blue are for non-recommended fl ows. Rev. 05/07

ANNEX Pressure Loss (Water) Air Dryers Air dryers should be used when the compressor is operated in freezing or high humidity conditions. In both cases it is necessary to remove as much moisture as possible from the air supplied to the pumps. There are three types of drying systems available: Refrigerated Regenerative Desiccant Membrane Refrigerated dryers are selected when the air temperature will remain above 350ºF. Desiccant dryers are preferred in low temperature conditions below 350ºF. Membrane dryers are usually chosen for applications where there is relatively low air consumption. Refrigerated Dryers Refrigerated air dryers use mechanical refrigeration to lower the air temperature of the compressed air. This lowers the dew point that causes the moisture in the air to condense into liquid and be removed from the compressed air stream. Regenerative Desiccant These dryers use a dual tower design, each filled with a desiccant media that will remove water from the air stream. The dual tower design allows one tower to dry the air while the other tower is regenerated. Maximum bed life is from 3 to 5 years. These dryers consume about 10% of the air supply produced by the compressor for regeneration of the desiccant bed. Membrane Dryer The compact membrane dryers use a molecular design that can provide atmospheric dew points as low as 400ºF. The system comprises densely packed hollow fiber membranes to diffuse the water vapor. No power source is required and the only maintenance needed is the periodic changing of a pre-filter element when the indicator on the dryer shows red. Water Flow & Pressure Loss Pipe Size (Sch 40) 1/4 Pipe (.364 ID) 1/2 Pipe (.622 ID) 3/4 Pipe (.824 ID) 1 Pipe (1.049 ID) 1 1/4 Pipe (1.380 ID) 1 1/2 Pipe (1.610 ID) 2 Pipe (2.067 ID) Flow (gpm) Pressure Drop (psi/100ft) Velocity (ft/sec) Pressure Drop (psi/100ft) Velocity (ft/sec) Pressure Drop (psi/100ft) Velocity (ft/sec) Pressure Drop (psi/100ft) Velocity (ft/sec) Pressure Drop (psi/100ft) Velocity (ft/sec) Pressure Drop (psi/100ft) Velocity (ft/sec) Press. Drop (psi/100 ft) Velocity (ft/sec) 0.25 0.77 0.583 0.26 0.043 0.15 0.011 0.09 0.003 0.05 0.001 0.04 0.000 0.02 0.000 0.5 1.55 2.103 0.53 0.155 0.30 0.039 0.19 0.012 0.11 0.003 0.08 0.002 0.05 0.000 39 0.75 2.32 4.453 0.79 0.328 0.45 0.084 0.28 0.026 0.16 0.007 0.12 0.003 0.07 0.001 1 3.09 7.581 1.06 0.559 0.60 0.142 0.37 0.044 0.22 0.012 0.16 0.005 0.10 0.002 2 6.19 27.331 2.12 2.016 1.21 0.513 0.74 0.159 0.43 0.042 0.32 0.020 0.19 0.006 3 9.28 57.865 3.18 4.268 1.81 1.086 1.12 0.336 0.65 0.088 0.47 0.042 0.29 0.012 4 12.37 98.527 4.24 7.268 2.41 1.850 1.49 0.571 0.86 0.150 0.63 0.071 0.38 0.021 5 15.47 148.880 5.30 10.982 3.02 2.795 1.86 0.864 1.08 0.227 0.79 0.107 0.48 0.032 6 18.56 208.604 6.36 15.388 3.62 3.917 2.23 1.210 1.29 0.319 0.95 0.151 0.58 0.045 8 24.75 355.189 8.47 26.201 4.83 6.669 2.98 2.060 1.72 0.543 1.26 0.256 0.77 0.076 10 30.93 536.714 10.59 39.591 6.04 10.077 3.72 3.113 2.15 0.820 1.58 0.387 0.96 0.115 15 46.40 1136.350 15.89 83.823 9.05 21.336 5.59 6.591 3.23 1.736 2.37 0.820 1.44 0.243 20 61.86 1934.857 21.19 142.725 12.07 36.328 7.45 11.223 4.30 2.955 3.16 1.396 1.92 0.414 25 77.33 2923.697 26.48 215.667 15.09 54.894 9.31 16.959 5.38 4.466 3.95 2.109 2.40 0.625 30 92.80 4096.544 31.78 302.182 18.11 76.915 11.17 23.761 6.46 6.257 4.74 2.956 2.88 0.876 Data based on pipe I.D. Cells highlighted in light blue have minimal pressure loss. Cells highlighted in dark blue are for non-recommended flows. Calculated using the Hazens Williams equation for head loss. h=((0.002083)(l)((100/c)^1.85)((q)^1.85))/(dh)^4.8655 Where: h = ft head loss/ft pipe L = length of pipe = 100 ft C = Constant = 130 for smooth pipe q = Flow rate in gal/min dh = Hydraulic dia = ID for circular tubes Pressure Loss (psi) = h/2.31

ANNEX Pump Flow Characteristics for Mini Bladder Pumps (MBP) (Refers to pumps listed on page 22) Well Depth Maximum Rated Flow Rates (ml/min) Part Nr. TR-042** TR-037* TR-035* TR-070* TR-071* O.D. 1/2 in 3/4 in 1 in 1.3 in 1.66 in 0 ft 460 1500 1800 1400 2000 50 ft 240 600 750 600 1500 100 ft 100 300 500 300 800 150 ft 40 130 200 130 400 * 100 psi, 8 ft submergence, with ¼ in ID air and ¼ in ID discharge tubing. Flow at any depth depends on tubing diameter, length and free discharge to atmosphere. ** Same as above but with with 0.096 in ID air and ⅛ in ID discharge tubing. 40

ANNEX Index A Air Compressor 4,16,32 Air Dryer 33 Application Air sparging 20 Developing 26 Dewatering 16 Dissolved Phase 13 DNAPL Recovery 2,6 Gas condensate 20 Plume control 16 Purging 24 Total Fluids 13 Arch Pump 26 Auger 27 C Cable 19,23 Canister 7 Cap Cop Vault 26 Compressor, Air 32 Controller Minni Bladder Pump 23 Pump 6 SepTek 16,18 Cyber Rain Gauge 27 D Data Logger, Mini 29 DC Pump Sample Plus 23 DC Purging Pump 25 Desiccant 33 Diffusion Sampler 25 Dissolved Phase 16 DNAPL Recovery 20 Dryer, Air 33 Dryer, Membrane 33 Dual Range Controller 23 E Electrical Skimmer System 6 Evacuator 14 F F.A.P. Plus 2 F.A.P. Plus HF 13 Filter/Regulator 4,11 G INDEX Groundwater Pumping 20 H Hand Auger 27 High Water Shut Off 3,4 Hose 19 I Interface Probe 29 L Leachate 16 Leachate and Condensate Pump 12 Level Control 18 LNAPL Recovery 2,6,7,8,9,20 M MBP 22 Mega-Monsoon 25 Mega-Typhoon 25 Membrane Dryer 33 MiniLogger 29 Mini Bladder Pump 22 Monsoon 25 Motor 16 MVP LD 12 MVP LS 12 O Overfill Protection Device Electro-Pneumatic 4 Pneumatic 4 P Peristaltic Pump 24 Petro-Bailer 9 Precision Dual Range Controller 23 Pressure Transducer 28 Probe Product/Water 29 Product/Water Interface Probe 29 Pulse Counter 11 Pump Arch 26 Bladder, Mini 22 Condensate 12 Controller Mini Bladder Pump 23 SepTek 16,18 DC Purging 25 Electric SEP IV 16 Electric Skimmer 6 Evacuator 14 F.A.P. Plus 2 F.A.P. Plus HF 13 Leachate 12 Level Control 18 MBP 22 Mega-Monsoon 25 Mega-Typhoon 25 Monsoon 25 Motor 16 MVP IV 10 MVP LD 12 MVP LS 12 Peristaltic Sampling 24 Sample Plus 23 SEP IV 16 SS-Mega-Typhoon 25 Submersible DC Purging 25 Purging 24 41 R Rain Gauge 27 S Sampler Diffusion 25 Stormwater 27 Sample Plus 23 SEPTEK 18 SepTek 16,18 Shut Off, High Water 3 Skimmer Density Skimmers 3,5 ESS Electrical 6 High Viscosity Skimmer 3 Passive Skimmer 7 Skimmer Assembly 2 Standard Skimmer 2,6 Skimming Pump Controller 6 SoakEase 8 Solar-Powered Remediation 20 SolarNAPL 20 SolarRem 20 SolarSPARGE 21 SS-Mega-Typhoon 25 Storm Water Cyber Rain Gauge 27 Sampler, Automatic 27 T Transducer, Pressure 28 Tubing 19,23 V Vault, Cap Cop 26 W Water Level Indicator 28 Water Level Monitor 28 Well Clincher 4,7

DURHAM GEO SLOPE INDICATOR ENVIRONMENTAL PUMPS MATERIALS TESTING GEOTECHNICAL AND STRUCTURAL www.durhamgeo.com Ground Water Remediation Pumps Ground Water Sampling Pumps Well Development Pumps Water Quality Meters Landfill Leachate STORM WATER www.durhamgeo.com Concrete Testing Equipment and Supplies Asphalt Testing Equipment and Supplies Soil Testing Equipment and Supplies Geosynthetics Testing Equipment General Laboratory Supplies www.slopeindicator.com Inclinometers and Casing Tilt Meters and Tilt Systems Bassett Convergence System Strain Gauges and Load Cells Piezometers and Pressure Cells Extensometers and Settlement Systems Real-Time Data Acquisition and Reporting www.stormwatersamplers.com COVER PHOTOGRAPHS Top: Peristaltic Pump used to sample a shallow ground water well. Center: Installing a F.A.P. Plus pump powered by the SolarNAPL solar-powered air compressor. Bottom: FAP Plus pump being installed. Storm Water Monitoring Equipment 2175 West Park Court Stone Mountain, Georgia, USA 30087 Tel: 770-465-7557 Tel: 800-837-0864 Fax: 770-465-7447 solutions@durhamgeo.com Copyright 2004 Durham Geo Slope Indicator. Products and specifications are subject to review and change without notice. Terms of sale and product warranties are posted on the www.durhamgeo.com web site. Printed in the U.S.A.