SENSAPHONE APPLICATION NOTE. Functions: C Programming, Pump Control, Data Logging

Similar documents
BUBBLER CONTROL SYSTEM

BUBBLER CONTROL SYSTEM

AUTOMATIC DREDGING PROFILE AND CONTOUR CONTROL

HumiSys HF High Flow RH Generator

LT GasAnalyzer. LT GasAnalyzer Page 1 of 6

628 Differential Pressure Decay Leak Tester

Code Basic module and level control complete with optionals code

Operating instructions Electrical switching facility pco

PROCESS MONITORING AND CONTROL

SECTION BIOLOGICAL TREATMENT SYSTEM FUNCTIONAL DESCRIPTIONS

Connect with Confidence NO POWER NO PROBLEM

HyperSecureLink V6.0x User Guide

The Next Generation for Level Control. By Ryan Spooner, Singer Valve

The HumiSys. RH Generator. Operation. Applications. Designed, built, and supported by InstruQuest Inc.

ACV-10 Automatic Control Valve

SAPCON. User Manual. Capacitance Continuous Level Indicator. . Introduction. . General Description. . Principle of Operation. .

TEL/jlRE" Introduction. Display Features and Modes. Startup Procedure. Power-Up Procedure. Adjustment Modes

TAKING IT TO THE EXTREME The WAGO-I/O-SYSTEM for extreme Applications

TANKTRONIC. STANDARD CONFIGURATION Single Tank. ADVANCED CONFIGURATION Multiple Tanks. Twin Tank (common valve) Twin Tank (separate valves) Vent box

PROJECT REPORT TITLE OF PROJECT:

SINGLE VALVE WITH LOW-FLOW BYPASS

Courseware Sample F0

Distributed Control Systems

UNDERSTANDING, ACCELERATED

SCIENTIFIC DATA SYSTEMS, INC. Depth Tension Line Speed Panel. DTLS Manual

American made since 1954

Using the Lego NXT with Labview.

Built-in Purge Control Functions

Mass Flowmeters. Mass Flowmeters for Gases

TH-1800-T TRX-700-CNG Converter

CONTROL and INSTRUMENTATION

THE CANDU 9 DISTRffiUTED CONTROL SYSTEM DESIGN PROCESS

Autocalibration Systems For In Situ Oxygen Analyzers

( ) ( ) *( A ) APPLICATION DATA. Procidia Control Solutions Coarse/Fine Control. Split-Range Control. AD Rev 2 April 2012

Net$ync II. Net$ync II. System Controllers

WF STEUERUNGSTECHNIK GMBH. INFORMATION and TECNICAL DESCRIPTION

Work Horses of the Breathing Air Industry

Sorensen DCS Series. 1 3 kw V A. General Purpose Systems Power Supply

Pulmonary Capacity Analyzer

LT GasAnalyzer beyond standards

Tank Level Sensors. AVTECH offers normally closed (NC) and normally open (NO) versions of the Water Tank and Fuel Tank Level Sensors.

Recovery collection complete sample recovery in preparative HPLC

FireHawk M7 Interface Module Software Instructions OPERATION AND INSTRUCTIONS

TYPE DOSAODOR-D SOFTWARE FOR CONFIGURATION OF TYPE DOSAODOR-D ODORANT INJECTION SYSTEM

AN-140. Protege WX SALLIS Integration Application Note

WL16 WATER LEVEL LOGGERS Submersible pressure transducer and USB datalogger combination

NOTICE. Issued: February 12, 2010 AO# Dundas Street West, Oakville, ON CANADA Phone: (905) Fax: (905)

Mud Diver. Suspended solids level measurement and tank profile station for Clarifier, Thickener, CCD and Washer Control Optimisation

Domino DUEMMEGI. Domino. Communication Interface DFTS User s Manual. Release September 2007

LEGO Engineering Conferences ROBOLAB and MINDSTORMS Education Version 4.5 March 2008

Stand-Alone Bubble Detection System

Design Envelope Booster. Sequence of operation

Automatic Isokinetic Sampler. ST5 Evo

Data Sheet T 8389 EN. Series 3730 and 3731 Types , , , and. EXPERTplus Valve Diagnostic

ROYTRONIC EXCEL TM Series AD Electronic Metering Pumps

Ingersoll Rand. X-Series System Automation

PART 5 - OPTIONS CONTENTS 5.1 SYSTEM EXPANSION 5-3

Instructions for SMV 3000 Multivariable Configuration (MC) Data Sheets

SVEA II GSM Connector User Manual

MEGAS 2.0. Gas analysis with direct C-Level Calculation and Bus-Connection. Data sheet

Pro-V Multivariable Flowmeter Model M22 In-line Vortex

STARLOG. Capacitive Water Depth Probe

ADT 761 Automated Pressure Calibrator

Training Fees 3,400 US$ per participant for Public Training includes Materials/Handouts, tea/coffee breaks, refreshments & Buffet Lunch.

BAROMETER PRESSURE STANDARD PRESSURE CONTROLLER

SCAM T.P.E. WATER TREATMENT SYSTEM SWT- AP AUTOMATIC PURGE

The Air Liquide Gas System Equipment Brochure

Highest Quality. Gas Chlorination Systems

Measurement and control equipment need to be increasingly. often employable at a (large) distance. Setting up, reading out

TransPort PT878GC Panametrics Portable Gas Ultrasonic Flowmeter. GE Sensing. Applications. Features

Injection Controller Program User Manual (for FloBoss 107 and ROC800-Series)

TransPort PT878GC Panametrics Ultrasonic Portable Gas Flowmeter. GE Infrastructure Sensing. Features. Applications

Echotel Model 3P1 Pump Controller and Ultrasonic Level Transmitter

COMPRESSOR PACK SUCTION CONTROLLER TYPE: LP41x

1 STARTUP Overview Buttons Basics of Control Resetting Faults and Alarms OPERATION...

Environmental Petrochemical, Pharmaceutical, Foods & Flavors, Chemicals, Personal Care, Forensics,...and more!

PART 1 GENERAL..2 Components of the gas chlorination system include, but are not limited to the following:

Workhorse-15 Oxygen Generator

STAND alone & p.c. VERSION

ERZ 2000-NG Flow Computer

Smart Data Role computers play in Technology

Industrial Compressor Controls Standard Custom

INSTRUCTION MANUAL STATION CONTROLLER SC100 MOTOR PROTECTION ELECTRONICS, INC.

The HumiPyc ( Model 2) - Gas Pycnometer; Density, Moisture, Permeation Analyzer; Filter Integrity Tester; RH sensor Calibrator

2600T Series Pressure Transmitter Models 264DC Differential and 264HC Gage Level Transmitters. Kent-Taylor

AC : MEASUREMENT OF HYDROGEN IN HELIUM FLOW

AX5000 Operational Manual

INSTRUCTION MANUAL. FLOW CONTROL DRAWERS MANUAL / PLC CONTROL SERIES Model Version Perma Pure LLC Tel:

BUYER S GUIDE AQUAlogger 530WTD

Touch Screen Guide. OG-1500 and OG Part # T011

Hot extractive multi-channel gas analyser for continuous process and emissions monitoring.

M2110P SMART PRESSURE GAUGE USER S MANUAL

陕西创威科技有限公司. Shaanxi Creat Wit Technology Co., Ltd. Precision pressure calibrator-cwy300 Operating Manual

HUMOR 20. High Accuracy Humidity Calibrator. Water T, p1 HUMOR 20 V1.0

Standard Chiller 1/4 compressors Manual version: /10/96

COMPAFLOW. Compressed Air. Volumetric flow. Gas. Mass flow. Steam. Net volumetric flow. Liquid

Using Modbus Protocol with the ALTUS Net Oil Computer. Instruction Manual

This addendum describes the back pressure control implementation if FuelCell Version 4.1a and later.

Exercise 2-2. Second-Order Interacting Processes EXERCISE OBJECTIVE DISCUSSION OUTLINE. The actual setup DISCUSSION

Autocalibration Systems for In Situ Oxygen Analyzers

Transcription:

SENSAPHONE APPLICATION NOTE Application: Pump Station Volumetric Flow Calculation Functions: C Programming, Pump Control, Data Logging Sensaphone Model: SCADA 3000 Who needs to perform Volumetric Flow Calculations? Anyone who needs to know how much liquid flows through a process, such as: Municipal Water and Sewer Departments Managers of Environmental Remediation sites Agriculture & Aquaculture facilities Who specifies flow monitoring equipment? Designers of municipal and industrial water pumping and collection systems, civil engineering firms, instrumentation designers, and control systems integrators. Why is SCADA 3000 a good choice for performing flow calculations? It provides a cost-effective alternative to using expensive flow measuring instruments. The SCADA 3000 s ability to perform both mathematical and data storage functions allows it to calculate flow and log totals. In addition, the flow information can be accessed and retrieved remotely using SCADA 3000 s optional internal modem. SENSAPHONE, INC. 901 Tryens Road Aston, PA 19014 Phone (610) 558-2700 Fax (610) 558-0222 www.sensaphone.com

It is essential for water and sewer system administrators to know how much volume is being pumped by each of their pump stations. One way to accomplish this is to install a flowmeter and controller combination that provides an output pulse when a programmed number of gallons have passed through the flowmeter. This is an expensive solution because totalizing flowmeters can cost thousands of dollars. The Sensaphone SCADA 3000 can approximate volumetric flow without the need for an expensive flowmeter. If the well level is monitored and controlled with float switches, the volume calculation is very simple. Volume = well area x (upper float level - lower float level) Example 1: Example 1 volume calculation: 20 foot deep well with 5 foot x 5 foot square cross section Lower pump control float switch elevation = 5 feet Upper pump control float switch elevation = 15 feet Influent Flow (pump on) 20' 1 Effluent Flow (pump off) 0 Well volume = (5 x 5) x (15-5) = 250 cubic feet 1 cubic foot = 7.48052 gallons Well volume = 250 cubic feet x 7.48052 gallons/cubic foot = 1870 gallons Remember that while the well is being pumped out, the influent flow doesn't stop. The total gallons flowing into the well during the pumping-out process must be added to obtain the correct flow total. Without a flowmeter on the influent line, the volume of influent flow must be approximated. The SCADA 3000 must first calculate the time required for the well to rise from 5 feet to 15 feet. The influent flow rate is the well volume divided by this time. 2

Example 1 Influent flow rate calculation: Using the above example: Well volume = 1870 gallons Time required for the well to rise from 5 feet to 15 feet = 30 minutes Influent flow rate = 1870 gallons / 30 minutes = 62.33 gallons/minute Now that we know the rate the well is filling up, we can calculate the gallons flowing into the well during the pump-out cycle. This is the number of minutes required to pump the well level from 15 feet down to 5 feet, multiplied by the influent flow rate. Example 1 Influent volume calculation: Using the above example: Well influent flow rate = 62.33 gallons/minute Time required to pump the well down from 15 feet to 5 feet = 6 minutes Influent volume during pump-out time = 6 minutes x 62.33 gallons/minute = 374 gallons The total volume pumped out of the well during the pump-out cycle can now be calculated. Total volume pumped = Well volume + Influent volume during pump-out time Total volume pumped = 1870 gallons + 374 gallons = 2244 gallons This method of calculating flow totals assumes several things: 1. The well's cross-section area is constant. 2. The influent flow rate remains constant during the duration of the current pump-out cycle. If the well level is measured with an analog level sensing device, the flow totals can be calculated more accurately. The analog level sensing device can be used to obtain a better approximation of the influent flow rate. Using analog level measurement, track the time required to fill only the last small volume of the well before the lead pump starts. The influent flow rate would then be equal to the small known volume divided by the time elapsed to fill that volume. Since it uses the most up-to-date influent flow rate, this method provides a better approximation of the influent flow total. Example 2: Assume same well dimensions as the 1st example: 20 foot deep well with 5 foot x 5 foot square cross section Pump OFF well depth = 5 feet Pump ON well depth = 15 feet Well volume = (5 x 5) x (15-5) = 250 cubic feet or 1870 gallons 3

Influent Flow 20' 1 14' Effluent Flow 0 Example 2 Influent flow rate calculation: Calculate the volume of the top 1 foot of well before pump ON point: Volume of top 1 foot of well = (5 x 5) x (1) = 25 cubic feet 1 cubic foot = 7.48052 gallons Volume of top 1 foot of well = 25 cubic feet x 7.48052 gallons/cubic foot = 187 gallons Time required for the well level to rise from 14 feet to 15 feet = 2.5 minutes Influent flow rate = 187 gallons / 2.5 minutes = 74.8 gallons/minute Now that we know the rate the well is filling up, we can calculate the gallons flowing into the well during the pump-out cycle. This is the number of minutes required to pump the well level from 15 feet down to 5 feet, multiplied by the influent flow rate. Example 2 Influent volume calculation: Example 2 influent flow rate = 74.8 gallons/minute Time required to pump the well down from 15 feet to 5 feet = 6 minutes Influent volume during pump-out time = 6 minutes x 74.8 gallons/minute = 449 gallons The total volume pumped out of the well during the pump-out cycle can now be calculated. Total volume pumped = Well volume + Influent volume during pump-out time Total volume pumped = 1870 gallons + 449 gallons = 2319 gallons 4

This method also assumes that both the well cross section and influent flow rate remain constant for the duration of the pump-out cycle. The methods described in this application note allow the SCADA 3000 user to calculate and store total station flow without the use of an expensive flowmeter. The SCADA 3000 can perform the flow calculations easiest using a C program. Ladder logic can be used, but there are lots of math functions involved, so it would require a large number of program rungs and ladder instructions. Once the station's flow total has been calculated, SCADA 3000 can store the value in its built-in datalogger, send the total as part of a daily faxed report, or use the flow total to trigger alarms for high and low station flow. 5

Sensaphone SCADA 3000 HARDWARE CONFIGURATION 16 Universal Inputs: Contact closures Thermistors 4-20mA Analog 0-5 Volt Analog Run time accumulation 8 Outputs: Latching 2 amp relays LED status indication 2 RS232 ports: Local programming Data radio communications RJ11 Phone interface for optional voice and data communications LCD: 4 by 20 character scrolling display User customized content for local viewing FEATURES: Data Logging: Fully user programmable built-in data storage for logging I/O points or calculated variables Event Logging: Internal tracking of all significant alarms and events Ladder Logic Programming: Standard ladder programming included for true PLC-type control. Visual ladder editor is part of free software package. C-Programming: Built-in C-compiler, allowing complex calculations. C-program is capable of running on a schedule, independent of ladder program. PID: Eight PID loops are built-into internal programming Any I/O points are selectable to function in PID calculations. AGA Gas Flow Calculation Options: Input/Output Options (expandable to 144 points): Universal inputs (same as 16 already built-in) High Speed pulse count inputs, up to 10kHz Thermocouple inputs: Types J,K,R,S,T and E Relay Outputs Analog Outputs (4-20mA) Annunciator Panel Communication Options: Phone modem allows modem, fax, and pager communications Voice module allows custom voice messages over standard phone lines Power Supply Options: Hard-wired power supply for 110 or 220 VAC operation Plug-in power supply for 110 or 220 VAC operation Standard battery backup Extended battery backup Software: Included in the purchase price, it provides the capability to program units, develop ladder programs, develop C-programs, retrieve and analyze the data and event loggers plus print all necessary reports. Automatically polls for data using phone lines or radio modems. Performs all standard SCADA functions with customized on-screen graphics True 32-bit code for Windows 95 or Windows NT 6 APN06 5.16.2001