BALL VALVE FULLY WELDED TECHNICAL MANUAL INSTRUCTIONS FOR THE INSTALLATION, COMMISSIONING AND MAINTENANCE MT 040/E 1 Edition 01/10/15 rev.02
TABLE OF CONTENTS 1.0 INTRODUCTION 1.1 MAIN SPECIFICATIONS 1.2 VALVE CONTROL 1.3 WARNINGS CONCERNING THE USE 2.0 INSTALLATION 2.1 GENERAL WARNINGS 2.2 GENERAL REQUIREMENTS 2.3 SPECIAL REQUIREMENTS 2.4 CONDITIONS OF USE 3.0 COMMISSIONING 3.1 PRESSURIZATION 3.2 INSPECTION OF THE EXTERNAL TIGHTNESS 3.3 INSPECTION OF THE INTERNAL TIGHTNESS 4.0 MAINTENANCE 4.1 GENERAL INSTRUCTIONS 4.2 REPLACEMENT OF THE FIRE SAFE RING (58) or OF THE O-RING (56) (112)-(169) 5.0 LUBRICATION 6.0 EMERGENCY SEAL 7.0 STORAGE 8.0 SUGGESTED SPARE PARTS 2
1.0 INTRODUCTION This manual aims to provide essential information for the installation, commissioning and maintenance of the Fully Welded ball valves. Moreover we consider it necessary to herewith provide a brief illustration of the valves main specifications. 1.1 MAIN SPECIFICATIONS The Fully Welded ball valves are cut-off devices fit for the use both on gaseous fluids and liquids for a wide range of pressures. The main specifications of these valves are: steel body with tail pieces fit for the flanged coupling and with machining for butt welding; parts in direct contact with the fluid treated with a nickel (or chromium)-based coating; soft insert on the seat for a better tightness also for uses on gaseous fluids; double block and bleed type seal seats. 1.2 VALVE CONTROL The valve opening and closing operations are performed with the lever control or with different types of controls; please kindly refer to the specific use and maintenance instructions for these last ones. 3
1.3 WARNINGS CONCERNIG THE USE The Fully Welded ball valves are fit to be used completely opened or completely closed: therefore they shall not be used for lamination. The position of the valve may be determined when the valve is assembled as follows: valve with lever control: the lever is in the direction of flow with open valve or perpendicular to the flow with closed valve; valve with hand wheel control or different control: the open and close position is specified by indicators placed on the control itself (see figure 1). Figure 1 4
2.0 INSTALLATION 2.1 GENERAL WARNINGS Before the installation, commissioning, or maintenance, the operators shall: o examine the safety devices applicable to the installation where they have to work; o obtain the necessary authorizations to work, when required; o equip oneself with the necessary individual protections (helmet, goggles, etc ); o make sure that the area where they have to work is equipped with the required collective protections and with the necessary safety signs. The handling of the equipment and of its components shall be carried out after evaluating that the lifting devices are fit for the loads to be lifted (lifting capacity and functionality). The handling of the equipment shall be carried out by using the lifting eyes arranged on the equipment itself. The use of motorized means is reserved to the personnel in charge of this. In case the installation of the system and of its accessories requires the application of compression fittings, these shall be installed by following the instructions of the compression fittings manufacturer. The choice of the compression fittings shall be compatible with the use specified for the equipment and with the plant specifications, where required. The commissioning shall be carried out by properly trained personnel. During the commissioning, not strictly necessary personnel shall be moved away and the prohibition area shall be properly signalled (signs, barriers, etc ). 5
2.2 GENERAL INSTRUCTIONS The valve installation shall be carried out in compliance with the prescriptions (laws or regulations) in force in the place of installation. In particular the specifications of natural gas plants shall be in compliance with the law provisions or regulations in force in the place of installation, or at least in compliance with the EN 12186 or EN 12279 regulations (we remind that the installation in compliance with such laws minimizes the risk of fire hazard). The valve is delivered without external pressure limiting devices; therefore it shall be installed by making sure that the operating pressure of the unit, where it is installed, never exceeds the value of the permissible maximum pressure (MOP). Only for limited periods of time peaks with value equal to 1.1 x MOP are permitted. The user, in case he considers it necessary, shall install suitable pressure limiting devices; he shall moreover arrange suitable venting or draining system to discharge the pressure and fluid inside the plant before carrying out any inspection or maintenance operation. We wish to remind, however, that the special design of the seal seats allows discharging to the line any overpressure that may be generated in the body cavity among the seal seats. 6
2.3 SPECIAL INSTRUCTIONS Before installing the valve it is necessary to be sure that: the valve may be inserted in the arranged space and it is sufficiently accessible for the following maintenance operations (see table 2); the upstream and downstream pipelines are at the same level as the inlet and outlet connections and they can support the weight of the valve; the pipeline inlet/outlet flanges are parallel to the valve seal surfaces; the inside of the valve is clean and the valve itself was not damaged during the transport; the upstream pipeline was cleaned in order to expel residual impurities such welding slag, sand, varnish waste, water, etc.. The valve does not have a preferential flow direction; therefore it may be installed in any position (vertical or horizontal flow). Starting from DN 150, the valve is equipped with its own supports; the user shall manufacture the plant so that it may support the valve itself and not overload the connections to the pipelines with further stresses. The connections to the inlet and outlet pipelines may be carried out: by means of standardized flanges the sizes and types of which are showed on the data plate ( see chapter 2.4 ); the choice of the connecting screws and of the seal gaskets shall be made by the installer who shall consider such information and the conditions of use in the place of installation; by means of a butt welding; in this case the installer shall take the necessary precautions in order to avoid thermally stressing the valve during the welding operations. During the welding operations the valve temperature shall not exceed the 130 value. We recommend, during the installation phase, to keep the ball in a fully open position, in order to prevent the seal seats and the ball surface from being damaged by foreign bodies or impurities. After the installation, open and close the valve in order to check its correct operation. 7
Table 2 8
9
10
11
2.4 CONDITIONS OF USE We recommend checking, before commissioning, that the conditions of use are in compliance with the equipment specifications. Such specifications are reported on the identification plates of each valve (figure 3). Figure 3 In particular we would like you to draw your attention to the following specifications: MOP max. permissible pressure at max. temperature; MOP min. permissible pressure at min. temperature; Tmin. And Tmax. design temperature (the minimum and maximum values are shown); the inlet and outlet connections class. Moreover, the user shall check that the used materials and the applied surface treatments, if any, are compatible with the expected use. Considering the valve geometric specifications, during the design phase no stresses due to traffic, wind, or seismic events were taken into consideration; therefore, the user shall take proper precautions in order to limit the effects of such events on the assembly, when these are expected. 12
3.0 COMMISSIONING 3.1 PRESSURIZATION After the installation check that the connections to the line are correctly executed and that the vents and drainages on the plant, if any, are closed. Slowly pressurize the plant (or the plant section) by means of the upstream process valve or of other systems arranged for this. 3.2 CONTROL OF THE EXTERNAL TIGHTNESS The tightness test of the valve connections to the plant shall be carried out according to the provisions in force in the place of installation. The external tightness is ensured when coating the element under pressure with a foaming agent, no bubbles appear. In case of liquids, the tightness is ensured where there are no visible leaks from the connections. 3.3 CONTROL OF THE INTERNAL TIGHTNESS Thanks to the double block and bleed type of the seats, it is possible to check the internal tightness without disassembling the valve from the plant and without depressurizing the line where the valve is installed (see figure 4). After placing the valve in a fully open or closed position, keep the pressure in the line, open the drainage (pos.13 of fig.4) and check that there is no constant fluid leak from it. Figure 4 13
4.0 MAINTENANCE 4.1 GENERAL INSTRUCTIONS The inspection and maintenance interventions are strictly linked to the quality of transported fluid. It is therefore advisable to perform a preventive maintenance, of which periodicity, if not established by the regulations, is relevant to: the quality of the transported fluid; the cleanness and preservation state of the pipelines in the plant; in general, after the first start of the plants, more frequent maintenance services are required because of the poor cleanness inside the pipelines. The periodical maintenance concerns also the state of the external surfaces of the valve. In particular the surface protections shall be restored (usually the varnishing) in case they are worn. Before performing any intervention, make sure that the plant section where you operate has been upstream and downstream cut-off and that the pressure in the concerned pipeline section has been discharged. Besides, we recommend discharging the pressure from the valve body through the drain valve placed on the body of the valve itself (see pos. 13 figure 4). Moreover, make sure to have a series of recommended spare parts. The spare parts shall be Pietro Fiorentini Spa genuine spare parts. NOTE. The use of non genuine spare parts relieves the manufacturer from any liability. 14
4.2 REPLACEMENT OF THE FIRE SAFE RING (58) OR OF THE O-RING (56)-(112)- (169) The below mentioned operations may be carried out without removing the valve from the line. Check that the valve is completely closed (or open). Discharge the pressure from the valve body by leaving the drain valve open (13). 4 2.1 REPLACEMENT OF THE O-RING (56) for DN 2"- 4" CLASS 150-300 and DN 2"- 3" CLASS 600 WITH LEVER (figure 5). 4.2.1.1 Unscrew the nut (52), remove the washer (75), with lever hub (74), unscrew the nut (48), remove the Belleville washer (49), the stem clamp (66), the second Belleville washer (49), unloosen the screws (18), remove the gland flange (33), the gland (50) and the O-ring (56). 4.2.1.2 Clean and lubricate the O-ring seat and assemble the new O-ring (56). 4.2.1.3 Assemble the gland (50), the gland flange (33), tighten the screws (18), assemble the Belleville washer (49), the stem clamp (66), the second Belleville washer (49), tighten the nut (48), assemble the lever hub (74), the washer (75) and tighten the nut (50). Close the drain valve (13). Figure 5 15
4 2.2 REPLACEMENT OF THE FIRE SAFE RING (58) for DN 6" CLASS 150-300 WITH LEVER ( figure 6 ) 4.2.2.1 Remove the snap pin (71) the lever (47), and the lever hub (74), unscrew the nut (48), remove the Belleville washer (49), the stem clamp (66) and the second Belleville washer (49), unloose the screws (18), remove the gland flange (33), the gland (50) and the fire safe ring (58). 4.2.2.2 Clean and assemble the new fire safe ring (58). 4.2.2.3 Assemble the gland (50), the gland flange (33), tighten the screws (18). Assemble the Belleville washer (49), the clamp stem (66), the second Belleville washer (49), tighten the nut (48), assemble the lever hub (74) the lever (47) and the snap pin (71). Close the drain valve (13). Figure 6 16
4.2.3 REPLACEMENT OF THE O-RING (56) for DN 2" - 4 CLASS 150-300 and DN 2"- 3" CLASS 600 WITH CONTROL ( figure 7 ) 4.2.3.1 Unloose the screws (10) and remove the control. 4.2.3.2 Unloose the screws (15) remove the flange (34), the centring ring (130), unloose the screws (18), remove the gland flange (33), the gland (50) and the O-ring (56). 4.2.3.3 Clean and lubricate the O-ring seat and assemble the new O-ring (56). 4.2.3.4 Assemble the gland (50), the gland flange (33), tighten the screws (18), assemble the centring ring (130), the flange (34) and tighten the screws (15). 4.2.3.5 Reposition the control and tighten the screws (10). Close the drain valve. In order to assemble the control, make reference to the relevant documentation. Figure 7 17
4.2.4 REPLACEMENT OF THE FIRE SAFE RING (58) AND OF THE O-RING (112)- (169) for DN 6" - 24" CLASS 150-600 and DN 4" CLASS 600 WITH CONTROL ( figure 8 ) 4.2.4.1 Unloose the screws (10) and remove the control. 4.2.4.2 Remove the tongue (11), the o-ring (169), unloose the screws (15), remove the flange (34), the O-ring (112), the gland (50) and the fire safe ring (58). 4.2.4.3 Clean the seat of the fire safe ring (58), the slots of the O-rings (112)-(169) on the flange (34), assemble the new fire safe ring (58) and the new O-rings (112)-(169). 4.2.3.4 Assemble the gland (50), the flange (34), tighten the screws (15) and assemble the stem key (11). 4.2.3.5 Reposition the control and tighten the screws (10). In order to assemble the control, make reference to the relevant documentation. Figure 8 18
5.0 LUBRICATION The valves are already lubricated during the assembly phase (with the most suitable product for the operation if it is specified in the order) for the following reasons: 1) ease the components assembly 2) improve manoeuvrability 3) ease the preservation in case of warehouse storage. As regards the choice of lubricants, it is necessary to pay attention to the type of fluid to be cut-off, we suggest using the following listed lubricants in the below mentioned cases: a) oxygen: Molycote, Z powder, Fonblin oil, Safety Oxy Lube 200 EP (Tecnolube Seal), other lubricants or greases may generate explosive mixtures. b) Food products: Vaseline or similar non toxic materials. In all other cases, use products compatible with the expected conditions of use (temperatures) following the manufacturers suggestions and paying attention not to use corrosive products damaging the rubber parts. For all applications on gas (oxygen excluded), we suggest to use POLYMER 1000 grease (marketed by Tecnolube Seal) o similar products. For special applications we suggest to require information specifying in detail the type of fluid to be cut-off and the operating conditions 19
6.0 EMERGENCY SEAL For the emergency seal of the seats and of the stem (when required) we suggest to use VALVE PEANUT LUBE grease (trade mark TECNOLUBE SEAL), or similar lubricants. To inject the grease into the emergency lubricator (62) you must unloose the plug (1) of fig. 9 with a 360 rotation; inject the grease with a special injection pump. In order to inject the grease, it is necessary to use a pump with a max. operating pressure higher than 20 bar of the valve max. operating pressure at the moment of lubrication Figure 9 20
7.0 STORAGE The Fully Welded ball valves do not require specific precautions in case of storage for long periods; anyway it is recommended to pay attention to: avoid with ventilation, driers or heating, the formation of it condenses; the store has to be dry, deprived of dust and well ventilated and the temperature of the store, avoiding the freezing is up to +30 C; the present escorts must have consumed for first to get some times of storage the more possible brief; keep the valves in the original packing; keep the protections applied in the factory on the flanged connections; keep the valve in the closed position to safeguard the state of the tightness and valve seats; store the rubber parts away from direct sun light, in order to avoid a fast aging; particularly it will need to respect the directives for the storage of the rubbers (DIN 7716); protect the tightness seat from dust or other material. In case this happens, before installing it, carefully clean the tightness and ball seats. 8.0 SUGGESTED SPARE PARTS For the Fully Welded ball valves, the suggested spare parts are usually: the gaskets of the various joints (usually O ring); the fire safe ring. When ordering the spare parts, list: Type of valve Serial no. Year of manufacture Type of fluid used Part no. (position) Quantity 21
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I dati sono indicativi e non impegnativi. Ci riserviamo di apportare eventuali modifiche senza preavviso. The data are not binding. We reserve the right to make modifications without prior notice. Pietro Fiorentini S.p.A. UFFICI COMMERCIALI: OFFICES: I-20124 MILANO Italy - Via Rosellini, 1 - Phone +39.02.6961421 (10 linee a.r.) - Telefax +39.02.6880457 E-mail: sales@fiorentini.com I-36057 ARCUGNANO (VI) Italy - Via E. Fermi, 8/10 - Phone +39.0444.968511 (10 linee a.r.) - Telefax +39.0444.960468 E-mail: arcugnano@fiorentini.com I-80143 NAPOLI Centro direzionale - Isola G 1 Phone +39.081.7500499 - Telefax +39.081.7500394 E-mail: napoli@fiorentini.com ASSISTENZA POST-VENDITA E SERVIZIO RICAMBI: SPARE PARTS AND AFTER-SALES SERVICE: I-36057 ARCUGNANO (VI) Italy - Via E. Fermi, 8/10 - Phone +39.0444.968511 (10 linee a.r.) - Telefax +39.0444.968513 E-mail: service@fiorentini.com 28