Inverted bucket steam traps Type OKZ PN6/PN16

-TERMOENERGETIKA- Inverted bucket steam traps Type OKZ PN6/PN16 We produce the inverted bucket steam traps type OKZ for nominal pressures PN 6 and PN 16 These traps have automatic air vent on the start-up. All internal parts are made of stainless steel and encased in a cast (cast iron or ductile iron). Dimensions separator according to the diameter are given in the table. Product: Steam trap, type OKZ Part Material Housing EN-GJL-0 (DIN GG-) Mechanism 1.401 Bucket 1.401 L Application range for OKZ type steam trapsa, PN16 for flanged connection, according to EN 109- Steam trap size depends from the required capacity and available spressure difference before and after the team trap. Maximum capacity depending on the pressure difference before and after the team trap is shown on the included diagram (down). On customer request we can produce variation with a higher capacity. 4 Q [t/h] DN1 DN0 DN DN DN40 DN0 R/4" R1" 1 0,8 0,6 0, 0,4 0, 0, 0,1 L [mm] H [mm] 0,1 19 4 7 7 140 160 160 17 180 10 7 7 17 180 10 0, m [kg] 0, 6,9 9, 10, 1 4, 6 8, 8,7 DN 40 DN 0 DN DN R 1" DN 0 R /4" DN 1 R 1/ " 1 4 10 16 p [bar] H T E E N OKZ with flange connection Because of retaining of the condensate in the housing after system stop, at low temperatures there is danger of freezing and breaking the housing. Because of this they are not recommended for outdoor installation. In case of cancellation, inverted bucket steam traps usually remain in the fully open position. H L T E E N OKZ with screw connection

-TERMOENERGETIKA- Inverted bucket steam traps Type OKZ-VP NP/NP40 Steam traps type OKZ-VP are made for nominal pressure PN and PN40. These steam traps have automatic air vent on the start-up. All internal parts are made of stainless steel, a steel housing is made by welding. Dimensions of this steam traps, according to the diameter are given in the table. For special applications we produce type OKZ-VP with stainless steel housing. T E E N L DN L [mm] DN1 10 DN0 10 DN 10 DN 0 DN40 0 DN0 0 Size choice depends on the required capacity and available steam trap pressure difference before and after the steam trap. Maximum capacity depending on the pressure difference before and after the steam trap are given in the diagram. Steam traps type OKZ - VP are designed for operation at high pressure and the condensate discharge when the power supply steam is superheated. These steam traps are not designed for drainage of the steam line, especially if the steam line is for superheated steam. This type of steam traps must be mounted in position as shown, and the entrance to the separator through the lower port. In addition to the basic version separator OKZ-VP we also produce traps type OKZ-V that has the same connection flanges position as the OKZ type of steam traps, but is designed for pressures PN and PN 40. Q [t/h] 1 0,8 0,6 0, 0,4 0, DN - DN0 DN 1 - DN 0, 0,1 0,1 0, 0, 1 4 10 p [bar] 0 0

-TERMOENERGETIKA- Float ball steam trap Type OKP PN6 PN16 PN Float ball steam trap, type OKP comes in two variations: flanged connection from DN1 up to DN0 and with a screwed connection of R1 / ", R/4`` and R1." These steam traps can be produced for PN6, PN16 and PN nominal pressure. In addition to standard version of OKP type (shown in the picture), we have developed a whole range of such separators, but with different position of connections to meet our customers requests. This type of steam trap, must be fixed in position shown on drawing (right). OKP type are supplied with thermo capsule type TK-M, which allows steam traps to discharge non-condensing gases. This is especially important when starting the installation, when the amount of n on-condensing gases are largest. All internal parts are manufactured odvajca stainless steel, witch enables the maximum lifespan. The housing is made of cast iron or ductile iron. The cross-section of OKP steam trap L [mm] Dn1 1 DN0 1 DN 1 DN 1 DN40 DN0 10 R/4" 10 R1" 10 m [kg] 9, 10, 11, 1, 4 8, 8, 8, Steam trap OKP with flanged connection Product: Float ball steam trap, type OKP PN16 Part Material Housing EN-GJL-0 (DIN GG-) Cover EN-GJL-0 (DIN GG-) Mechanism 1.401 Float ball 1.401 Steam trap OKP with screw connection Valve application range Application range for safety valve type OKP, PN16 for flanged connection, according to EN 109- Capacity for OKP type, depending on the available pressure difference is given in the diagram on the technical sheet for type OKP - E.

-TERMOENERGETIKA- Float ball steam trap Type OKP-E DN 40 and DN 0 Type OKP - E which is modified steam trap of OKP series. OKP-E has a servo mechanism to open steam trap. This mechanism allows the steam trap to has a larger diameter of the valve openings and thus little pressure drop. Due to this OKP-E has a large capacity even at at low pressure differences. The steam trap type OKP-E is designed for large consumers and eventually to consumers who work with low steam pressure, and have relatively high power. This type of steam trap comes only in dimensions of DN40 and higner. Depending on the required capacity at the request of the users OKP-E can modified (the mechanism) to allow even a greater capacity of the steam trap, then declared in the attached (down) diagram. Steam trap type OKP-E can be applicated for flush vessel supply, in such application OKP-E regulates the level of condensate in the vessel. Steam trap type OKP - E has a same built-in measures as OKP type. Steam trap application range Application range for steam trap, type OKP-E PN16 for flanged connection, according to EN 109- Mechanism of the OKP - E type 6 Q [t/h] 4 OKP-E DN 40 - DN 0 1 0,8 0,6 0, 0,4 0, 0, 0,1 0,1 0, 0, OKP DN40 - DN 0 OKP DN - D N i R1 " OKP DN 1 - D N 1 i R 1/" - R /4" 1 4 10 16 p [bar] Product: Steam trap, type OKP-E Part Intersection of the OKP - E type Material Housing EN-GJL-0 (DIN GG-) Cover EN-GJL-0 (DIN GG-) Mechanism 1.401 Float ball 1.401

Thermostatic steam traps Type TKL DN 1 - DN 0 Steam traps type TKL come with the threaded connection of R1 / ", R / 4" R1 "and the flange connection from DN1 up to DN0. Steam traps type TKL DN1 and DN0 and type TKL R 1/ "and /4" have one thermal capsule type TK (picture below). Steam trap housing is made of cast iron or cast steel. It can be disassembled, in order to enable quick and easy replacement of thermal capsule. Replace capsule is possible without removing the steam trap from the pipeline, and the time required for capsule replacement does not exceed 1 minutes. Replacement of the capsules are practically completed overhaul of separators. These steam traps can be mounted in any position, depending on the capsule filling may discharge condensate undercooled up to 40º C. Standard filling of the capsule enables condensate discharge up to 10 C subcooling. Installation measures L TKL DN1 TKL DN0 L 10 160 1 - R/4" Mass: DN 1 -, kg DN 0-4,0 kg -,4 kg R/4" -, kg Valve application range Application range for steam trap type TKL, DN1,DN0 PN16 for flanged connection, according to EN 109- Product: Thermostatic steam trap, type TKL Part Material Housing EN-GJL-0 (DIN GG-) Cover EN-GJL-0 (DIN GG-) Thermo capsule 1.401 Q [t/h] 1 0,8 0,6 0, 0,4 0, 0, 0,1 0, 1 0, D N1- DN0 i R1/ " - R1" 0, 1 4 10 16 p [bar] -TERMOENERGETIKA-

-TERMOENERGETIKA- Thermostatic steam trap Type TKL - M / TKL - MG Thermostatic steam traps type TKL - M and TKL - MG have screw connection of R1 / ", R / 4" and R1 ", they have nominal pressure PN16. T E E N At the costumer request, TKL-M can come with stainer integrated within of the housing of the steam trap. Replaceable thermostatic element is inside the steam trap, it is a thermostatic capsule type TK- M. This steam trap discharges the condensate with subcooling from 10 to 0º C. In this way it is exploited the heat of condensate and it is decreased the amount of flash steam. Typically the steam traps type TKL - M and TKL - MG used in heating systems, cooking food duplicates in hospitals and hotels, the smaller diameter pipelines steam drainage etc. A T E E N B TKL - M B Steam trap has a folding housing, so it allows replacement of thermostatic capsule. This significantly increases life time of these steam traps. At the costumer request, we can deliver this type of steam trap to release condensate with 40 º C of subcooling. Cover Thermostatic capsule TK-M Sealing Housing Sealing Cover A TKL - MG Housing material is cast iron (EN-GJL-0). Internal parts are made of stainless steel (1.401). Seal of the housing is achieved Klingerit, and sealing the thermostatic capsule with Teflon. -TERMOENERGETIKA

-TERMOENERGETIKA- Thermostatic steam traps Type TKZ Thermostatic steam traps type TKZ is made entirely from stainless steel. It's sealed in welded housing. Compact design and small built in measures provide easy installation. We produce them for a nominal pressure PN PN16, with screw connection R1/ ", R / 4" R1 ". L In addition to the standard version we have version of type TKZ with eccentrically offset connectors, as well as version with both internal threaded connection. The TKZ type has installed thermal capsule, type TK. Depending on the requirements we can provide undercooling of condensate from to 0 C. TKZ type steam trap can be installed in any position. In the case of installation as shown on picture, on the system stop, condensate can leak out of steam trap so there is no danger of freezing. In the case of freezing up to - C there is no fracture of internal parts or the casing, so it is suitable for drainage and steam consumers who may be exposed to low temperatures. TKZ's housing is not retractable so it is not foreseen the possibility of replacing capsule. This steam traps have the lowest price compared to other steam traps and a very long life time. Warranty for this type is two years. Separator type is usually applied TKZ for the installation of steam heating, steam for outdoor drainage, ancillary heating. It also applies to consumers in small drainage prehrabenoj, chemical, petrochemical industry, etc.. They are good and the accompanying heating fuel oil and heating fuel oil tanks. Odvajač tip TKZ se najčešće primenjuje za instalacije parnog grejanja, za spoljnju drenažu parovoda, prateće grejanje. Takoðe se primenjuje za drenažu manjih potrošača u prehrabenoj, hemijskoj, Q [t/h] 1 0,8 0,6 0, 0,4 0, Ti p TKZ 0, 0,1 0, 1 0, 0, 1 4 10 16 p [bar] -TERMOENERGETIKA

Thermodynamic steam trap Type TDK We have developed a new series of thermodynamic traps type TDK, with the thermodynamic capsule. Housing and internal parts of this steam trap are made of stainless steel. In the following table are given values of capacity for steam traps type TDK, related to the working pressure. TDK series are produced with screw connection in sizes: R 1 / ``, R / 4 `` and `` R1 Housing of the steam trap is the thermal chamber that provides a relatively uniform value of temperature inside the housing, regardless of external conditions. This results in optimum temperature for traps. Inside the housing is the replaceable thermodynamic capsule type TD. Optionaly, upon customer request in the housing of the steam trap strainer can be monted. -TERMOENERGETIKA

-TERMOENERGETIKA- Thermostatic bimetallic steam traps Type BPZ Steam trap type BPZ is thermostatic steam ttrap with bimetallic plates. This bimetallic steam trap comes with screw connection, sizes: R1 / ", R / 4 and R1,with the nominal pressure PN16 or PN. BPZ type is entirely made of stainless steel, so it has a long life of impeccable work. It comes in compact welded housing. This steam trap has a small mounting dimensions and light weight. It is suitable for steam line drain and the drain of consumers who are not affected with undercooling of the condensate. This steam trap can be installed in any position. If installed vertically, after the syistem stop, condensate can freely drain from the installation and steam trap housing, so there is no danger of frost. The model BPZ, will not suffer breakage of housing or internal parts due to freezing, if it is exposed to the temperatures down to -? C. At the customer request it is possible to adjust for other mounting positions and size of connections. 9 Like the all thermostatic steam traps, BPZ drain condensate with undercooling from to 0?C, depending on customer requirements. BPZ type steam trap is recommended for drainage of steam line with superheated steam and drainage of superheated steam consumers. It is suitable for installation outside of buildings because it allows condensate to flow out of the housing after the plants stopping / pausing(do not keep the condensate in the housing). In the following table (left) are given values of capacity for steam traps type BPZ, related to the working pressure. 16

Direct action regulation valve Type RVD RVD is a direct action pressure regulator. It is designed for controlling steam, oil, air and water pressure. We produce it with the screw connections of R1 / " up to R6 / 4" and for nominal pressures of PN 16 to PN All internal valve parts are made of stainless steel (1.401). Membranes are a combination of stainless steel and Teflon. Housing made of cast iron, ductile iron or cast steel. All direct action valves regulated pressure o deviates from the set pressure. Deviation is depending on the current flow. Valves with direct action also have a smaller opening force so there are produced only for the smaller sizes (DN). If it is needed a bigger DN, it is recommend to use pilot operated valve, like RVSU type valve witch have servo device. Valve RVD has the lowest price so you should always be applied when technological requirements allow it. RVD i RVD-N L [mm] 100 R/4" 100 R1" 100 R6/4" 10 RVD 1 14 18 0 G [kg] RVD-N 16 17 1 RVD type can be mounted in any position. Also it allows the adjust of the regulated pressure without a system stop. On flow rise, regulated pressure tends to drop. The maximum deviation from the preset pressure is up to 10% of regulated pressure. RVD valve is designed to control pressure exceeding. bar. For pressure regulation below. bar, it can be used modified version of RVD valve labeled as RVD - N. RVD valves are used for pressure ratio (at the inlet and outlet) four to one (p1 / p <4 / 1) L Mounting dimensions type of RVD valves are given in the table (top), and the capacity of the valve depending on the pressure difference is given in the tables below. This values are for both RVD and RVD- N type. Inlet pressure p1 [bar] 16 14 10 Regulated pressure p [bar],,0 7, 10,0,,0 7, 10,0,,0 7,,0,,0 Steam flow capcity [kg/h] 1/" i /4" 1" i 6/4" 77 17 68 16 60 14 110 18 8 60 1 0 18 4 8 18 18 1 1 10 8 10 10 84 80 101 98 7 48 8 0 1 Inlet pressure p1 [bar] 16 14 8 Regulated pressure p [bar],,0 7, 10,0,,0 7, 10,0,,0 7,,0,,0 Water flow capacity [kg/h] 1/" i /4" 1" i 6/4" 400 800 00 700 1980 7000 90 6600 60 4700 000 7800 190 180 100 80 1600 1400 1000 70 1170 1100 80 60 00 700 600 600 800 6600 600 40 4000 4000 400 000 100 000 -TERMOENERGETIKA-

Regulation valve Type RVSU Regulation valve type RVSU is a mechanical servo pressure regulator. This valve is designed to control steam pressure or air. It consists of two parts, the main valve and pilot valves. The pilot valve, uses the membrane located at the bottom of the valve controls the main valve, so this system is called - servo valve. Steam pressure regulation with the valve type RVSU is very precise. Practically, the steam pressure behind the valve does not depend on the current flow of steam or pressure applied to the flow of 0 to 100% of maximum flow. The advantage of servo regulation is virtually unlimited ratio of input and output pressure. All inside parts of valves are made of stainless steel, membranes are a combination of stainless steel and teflon(ptfe), and the casing is made of cast iron or steel. Capacity depends on the valve inlet pressure and the regulated pressure. For the calculation of capacity use is Kv values obtained by measuring the valve. These coefficients are given in table below-right. These coefficients are given in table below, and below the table are given the equation for flow calculation.valve type RVSU found is widely applied in many industries. It has a long work life time, low cost and relatively simple maintenance procedures. L These valves exploitation life time is from four up to seven years. After this it is necessary to do maintenance. Maintenance is low cost comparing to the price of new valve and increases the exploitation time of the valve for several more years. This valve also has version with solenoid valve mounted on the pulse line. This enables the remote turning on/off with control of the steam pressure. For saturated steam: p> p1 RVSU DN1 DN0 DN DN DN40 DN0 DN6 DN80 DN100 DN1 DN10 W=Kvs 1,88 p(p1+p) p1 p< W=Kvs 1,76 p1 p1, p, p [bar] W [kg/h] L [mm] 10 10 16 180 00 0 90 10 0 60 400 G [kg] 1, 1,7 17, 19, 6, 1,, 4,7 68 80 117 Kvs [m /h] 4 7 10 17 4 67 10 177 p1 p Product: Regulation valve, type RVSU PN16 Valve application range Application range for control valve type RVSU PN16 for flanged connection, according to EN 109- Part Material 1. Pilot valve cover EN-GJL-0 (DIN GG-). Pilot valve housing EN-GJL-0 (DIN GG-). Valve housing EN-GJL-0 (DIN GG-) 4. Membrane(diaphragm) housing EN-GJL-0 (DIN GG-). Spring DIN EN 17 6. Membrane(diaphragm) PTFE, 1.401 7. Impulse lines EN Cu-DLP 8. Pilot valve 1.401 9. Seat 1.401 10. Disc (plug unit) 1.401 11. Spring handler 1.401 1. Spindle (Stem)` 1.401 -TERMOENERGETIKA-

Temperature control valve Type RT 0 This valve regulates the temperature of heated fluid in a very narrow limits, with the largest error to º C, with good adjustment can reduce the error below º C. For saturated steam: p1 p> W=Kvs 1,88 p(p1+p) p1 p< W=Kvs 1,76 p1 RT type valve is a mechanical, pilot operated, temperature regulator. Mounts to the side of the steam or condensate, and regulates the temperature of heated fluid. It has a servo device, the pilot valve is temperature control valve type T. Modified version of RT valve is used to control cooling. This valve is placed on the side of the cooling water. This modified valve is labeled as type RT-R. RT DN1 DN0 DN DN DN40 DN0 DN6 DN80 DN100 DN1 DN10 L [mm] 10 10 16 180 00 0 90 10 0 60 400 G [kg] 1, 1,7 17, 19, 6, 1,, 4,7 68 80 117 60 Kvs [m /h] 4 7 10 17 4 67 10 177 R/4" For water: W=Kvs 1000 ρ p p1, p, p [bar] W [kg/h] These valves comes for nominal pressure PN16 and PN and nominal diametar up to DN 10. All internal parts are made of stainless steel (1.401) and membrane are made of combination of stainless steel and Teflon or copper and stainless steel. The casing is made of cast iron, ductile iron or cast steel. RT is supplied with a length of 100 mm capillaries, where the user's request can be delivered with greater capillary length. Weights and valve Kv value is given in the attached table. Product: Temperature control valve, type RT Part Material 1. Probe housing EN Cu-DLP. Valve housing EN-GJL-0 (DIN GG-). Membrane(diaphragm) housing EN-GJL-0 (DIN GG-) 4. Spring DIN EN 17. Membrane (diaphragm) PTFE, 1.401 6. Impulse lines EN Cu-DLP 7. Pilot valve 1.401 8. Seat 1.401 9. Disc (plug unit) 1.401 10. Spindle (Stem) 1.401 Valve application range Application range for control valve type RT PN16 for flanged connection, according to EN 109- -TERMOENERGETIKA-

Safety valve for steam Type VSO Safety valve with spring type VSO is designed to work with saturated steam. This valve has a valve seat and plug unit, made of stainless steel. Valves plug unit at the request of the customer may have a ring of viton, or teflon. Depending on the open pressure and the named diameter shown table (down right) gives steam discharge capacity. For this table assumes that the pressure behind the valve is approximately equal to atmospheric. A DN DN DN40 DN0 DN6 DN80 DN100 B DN40 DN0 DN6 DN80 DN100 DN1 DN10 C C B Valve application range Application range for safety valve type VSO, PN16 for flanged connection, according to EN 109- Product: Safety valve, type VSO Part Flanges: DIN EN 109-1/ EN 416-1 Implemented Material 1. Protective cover EN-GJL-0 (DIN GG-). Screw for spring adjusting 1.401. Nut for the setting fixation 1.401 4. Spring handler-upper 1.401. Spring DIN EN 17 6. Central pillar 1.401 7. Spring housing EN-GJL-0 (DIN GG-) 8. Lever for manually relieve EN-GJL-0 (DIN GG-) 9. Spring handler-lower 1.401 10. Spindle guiding 1.401 11. Valve housing EN-GJL-0 (DIN GG-) 1. Spindle (Stem) 1.401 1. Disc (plug unit) 1.401 14. Seat 1.401 A A - Steam inlet B - Steam outlet C - Valves drainage for condensate Capacity [kg/h] Set pressure [bar] 1 1,, 4 6 7 8 9 10 1 14 Name diameter - DN DN DN DN40 DN0 DN6 DN80 DN100 8 0 71 41 490 61 78 86 976 109 11 11 167 1800 6 480 90 684 781 98 117 16 11 1740 198 10 491 81 9 78 1960 1116 170 1600 1910 19 6 81 140 446 40 4661 914 109 148 174 1964 47 9 40 906 480 48 6 696 704 17 07 8 9 41 410 06 86 664 74 88 9060 1066 17 * flow rate is 90% of the declared when the pressure exceeded set pressure by 10% 67 19 84 446 084 640 764 8878 10107 117 1161 178 16 18644 660 486 944 6901 788 9899 11817 17 16 174 19416 10 078 8818 DN 40 0 6 80 100 1 10 Dnozle [mm] 19 4 48 6 6 79 100 1 Pnozle [mm ] 8,9 490,6 184,74 1808,64 461,76 11,67 4899,19 780 16,6 -TERMOENERGETIKA-

Spring operated safety valve for steam and water Type VSO - G Spring operated safety valve type VSO - G is designed to work with saturated steam or water. This valve has a seat and plug made of stainless steel. Disc-plug unit at the request of the customer may have a ring of viton, or teflon. Depending on the set pressure and the named diameter in the lower tables are given capacity discharge for steam and water. For this tables it is assumed that the pressure behind the valve is approximately equal to atmospheric. G1 R/4" R1" R/" G R1" R/4" R/" R" Steam capacity [kg/h] Product: Safety valv, type VSO-G Part Material Screw for spring adjusting 1.401 Nut for the setting fixation 1.401 Spring handler-upper 1.401 Spring DIN EN 17 Central pillar 1.401 Spring housing EN-GJL-0 (DIN GG-) Handle for manually relieve 1.401 Spring handler-lower 1.401 Spindle guiding 1.401 Valve housing EN-GJL-0 (DIN GG-) Spindle (Stem) 1.401 Disc (plug unit) 1.401 Seat 1.401 EN 416-1 implemented Set pressure [bar] Set pressure [bar] 1 4 6 7 8 9 10 1 14 R/4" R1" R/" 1 70 16 197 1, 86 1 41 94 10 18 86 467, 119 1 41 16 4 8 66 4 171 06 480 78 07 69 78 94 6 4 41 67 110 7 77 49 774 164 8 1 871 144 9 47 618 969 184 10 81 680 1066 1744 * flow rate is 90% of the declared when the pressure exceeded set pressure by 10% Water capacity [m /h] Named diameter R/4" R1" R/" 4,,0,8 6, 7,1 7,8 8, 8,7 9, 10, 10,9 Named diameter, 7,4 9,0 10,4 11,6 1,7 1,8 14,7 1,6 16, 18,0 19,4 8,1 1 1,4 1, 17, 19,0 0 4 7 9 1, 16,9 1 4 6 9 1 4 6 8 41 4 * flow rate is 90% of the declared when the pressure exceeded set pressure by 10% -TERMOENERGETIKA- www.termoenergetika.co.rs

Spring operated safety valve - for water Type VSV Spring operated safety valve type VSV is designed to work with cold and hot water. In the table below are given work areas for the predefined set of springs. Optimal relief, on valve activation, of installation is achieved with usage of different springs for different pressures are correctly installed relief activating safety valves. Valve type VSV has seat made of stainless steel. The plug unit can be stainless steel, viton and teflon (PTFE). Product: Spring operated safety valve, type VSV Element name Material 1. Protective cover EN-GJL-0 (DIN GG-). Screw for spring adjusting 1.401. Nut for the setting fixation 1.401 4. Spring handler-upper 1.401. Spring DIN EN 17 6. Central pillar 1.401 7. Spring housing EN-GJL-0 (DIN GG-) 8. Spring handler-lower 1.401 9. Spindle guiding 1.401 10. Spindle (Stem) 1.401 11. Valve housing EN-GJL-0 (DIN GG-) 1. Disc (plug unit) 1.401 1. Seat 1.401 Flanges: DIN EN 109- EN 416-1 implemented Spring No. Spring working area 1. 0.-0.. 0.-1. 1-1. 4. 1.-...-4. 6. 4.-8. 7. 8.-19 Valve application range Application range for safety valve type VSV, PN16 for flanged connection, according to EN 109- -TERMOENERGETIKA-

Weight operated safety valve - for steam Type VST A DN DN DN40 DN0 DN6 DN80 DN100 B DN40 DN0 DN6 DN80 DN100 DN10 DN10 C C B Weight operated safety valve type VST is designed to work with saturated steam. This valve has a valve seat and disc are made of stainless steel. Disc (plug unit) at the request of the customer may have a ring of viton, or teflon. Depending on the pressure and the named diameter table (down) shows nominal steam discharge capacity. For this table it is assumed that the pressure behind the valve is approximately equal to atmospheric. A - Steam inlet B - Steam outlet C - Valves drainage for condensate A Set pressure [bar] 1 1,, 4 6 7 8 9 10 1 14 DN DN DN40 DN0 DN6 DN80 DN100 4 6 41 479 4 687 80 9 108 117 148 1479 174 001 404 4 66 761 868 109 104 11 174 194 14 6 768 168 68 869 1067 140 141 1778 1 466 807 149 489 89 406 179 Capacity [kg/h] Valve application range Application range for safety valve type VST, PN16 for flanged connection, according to EN 109- Name diameter - DN 1016 144 161 1916 18 70 8 81 440 4867 9 918 6966 800 170 86 809 6 71 4678 8 648 784 88 9176 10067 1181 1619 61 477 47 496 649 711 849 986 111 197 197 114 1808 0716 * flow rate is 90% of the declared when the pressure exceeded set pressure by 10% 4067 74 660 7668 87 10999 111 148 179 1947 174 671 786 01 -TERMOENERGETIKA-

Water supply program RP series - water pressure control valves The picture (right) is shown the basic version of a pressure regulator type RP10-1 On the basis of this version was developed full range of control valves for water. The main valve is controlled by a pilot valve (PV). Through ball valve S1 and choke valve PS water flows to above side of the main valves memebranediaphragm. If the pilot valve is closed then the diaphragm will push the plug unit-disc of the main valve in the closed position. If the pilot valve is fully open, then the liquid from the space above the membrane will flow out in the pipeline behind the main valve. This valve can be lead into a fully open or fully closed position with ball valves S1 and S. If the valve S1 is closed, the valve is lead into a fully open position, if the valve S is closed, the valve has been translated into a fully closed position. All inside parts are made of stainless material (stainless steel and Teflon) and housing is made of a cast steel or cast iron. The pilot valve is made of stainless steel. PV At that moment pressure above the diaphragm is lower then the pressure ahead of the main valve, the membrane will move up and change the position of the valve to open. In this way, the pilot valve controls the main valve. The degree of valve lift depends on the pressure behind the valve (pressure regulated), which is lead under the diaphragm pilot valve that balances with the spring over memebrane. Compaction of springs can be changed on the spot. Speed of opening and closing of the main valve is set by the choke valve PS. S1 PS S Type RP10-1 RP series valves are made for nominal pressure PN6, PN10, PN16 and PN. They come in flanged or screw connection: Screw connection: from R1" to R" Flange connection: from DN0 to DN00 Maximum fluid temperature is 10ºC -TERMOENERGETIKA-