Intricate knowledge in fluid control and energy recovery systems allows Valsteam ADCA to provide standard and tailor-made solutions for the process industry, including complete “plug-in-play” packages, heat exchangers, pressure operated pumps and more.
ADCAMat Pumps and Pump Traps
PPO14
The ADCAMat PPO14 pressure operated pump is recommended in the transfer of steam condensate, oils and other non-hazardous liquids compatible with the construction, to a higher elevation or pressure. Under certain conditions, it can drain a closed vessel under vacuum or pressure. The pump can be operated using steam, compressed air or other gases, and is manufactured in carbon steel or stainless steel.
Material
Carbon steel and stainless steel
Sizes
N/A
Connections
Flanged EN 1092-1 PN 16
Flanged ASME B16.5 Class 150
Female threaded ISO 7 Rp
Max. Pressure
10 bar
Max. Temperature
185 ºC
Regulating Range
N/A
Flow Rate
Up to 4000 kg/h
PPA14
The ADCAMat PPA14 pressure operated pump is recommended in the transfer of steam condensate, oils and other non-hazardous liquids compatible with the construction, to a higher elevation or pressure. Under certain conditions, it can drain a closed vessel under vacuum or pressure. The pump can be operated using steam, compressed air or other gases, and is manufactured in carbon steel or stainless steel.
Material
Carbon steel
Sizes
N/A
Connections
Flanged EN 1092-1 PN 16
Flanged ASME B16.5 Class 150
Female threaded ISO 7 Rp
Max. Pressure
10 bar
Max. Temperature
185 ºC
Regulating Range
N/A
Flow Rate
Up to 6290 kg/h
PPA312
The ADCAMat PPA312 pressure operated pump is recommended in the transfer of steam condensate, oils and other non-hazardous liquids compatible with the construction, to a higher elevation or pressure. Under certain conditions, it can drain a closed vessel under vacuum or pressure. The pump can be operated using steam, compressed air or other gases, and is manufactured in carbon steel or stainless steel.
Material
Carbon steel
Sizes
N/A
Connections
Flanged EN 1092-1 PN 16
Flanged ASME B16.5 Class 150
Female threaded ISO 7 Rp
Max. Pressure
10 bar
Max. Temperature
185 ºC
Regulating Range
N/A
Flow Rate
Up to 7540 kg/h
APST
The ADCAMat APST automatic pump trap is especially recommended where stall condition may occur due to poor steam trap condensate discharge capacity, caused by temporary insufficient pressure drop.
The equipment combines the features of a float steam trap and a pressure operated pump, in one single unit.
Material
Carbon steel and stainless steel
Sizes
Connections
Flanged EN 1092-1 PN 16
Flanged ASME B16.5 Class 150
Female threaded ISO 7 Rp
Max. Pressure
10 bar
Max. Temperature
185 ºC
Regulating Range
N/A
Flow Rate
N/A
PPT-K (Simplex)
The ADCAMat PPT-K packaged pump trap unit is intended for lifting hot condensate in closed loop systems. The unit is comprised by an ADCAMat PPT14 pump trap, a receiver and all auxiliary items, compactly mounted on a metal frame, piped and ready for connection, saving time, work and site costs. In addition, it ensures that the installation of the pump trap is correct in every detail. Two or more units can be connected in parallel to cope with flow rates beyond the capacity of a single unit.
Material
Carbon steel and stainless steel
Sizes
DN 40 x 25 and DN 50 x 40
Connections
Flanged EN 1092-1 PN 16
Flanged ASME B16.5 Class 150
Female threaded ISO 7 Rp or NPT
Max. Pressure
10 bar
Max. Temperature
185 ºC
Regulating Range
N/A
Flow Rate
N/A
PPT14
The ADCAMat PPT14 automatic pump trap is especially recommended where stall condition may occur due to poor steam trap condensate discharge capacity, caused by temporary insufficient pressure drop.
The equipment combines the features of a float steam trap and a pressure operated pump, in one single unit.
Material
Carbon steel and stainless steel
Sizes
11/2” x 1” and 2” x 11/2” DN 40 x 25 and DN 50 x 40
Connections
Flanged EN 1092-1 PN 16
Flanged ASME B16.5 Class 150
Female threaded ISO 7 Rp
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
POP-LC
The ADCAMat POP-LC low capacity pressure operated pump is recommended in the transfer of steam condensate, oils and other non-hazardous liquids compatible with the construction, to a higher elevation or pressure. Under certain conditions, it can drain a closed vessel under vacuum or pressure.The pump can be operated using steam, compressed air or other gases, and is manufactured in carbon steel or stainless steel.
Material
Carbon steel and stainless steel
Sizes
N/A
Connections
Flanged EN 1092-1 PN 16
Flanged ASME B16.5 Class 150
Female threaded ISO 7 Rp
Max. Pressure
10 bar
Max. Temperature
185 ºC
Regulating Range
N/A
Flow Rate
Up to 2195 kg/h
POPS-KT (Triplex)
A POPS-KT (Triplex) packaged unit is comprised by three ADCAMat pumps in parallel, a vented receiver and all auxiliary items, compactly mounted on a metal frame, piped and ready for connection.
Material
N/A
Sizes
N/A
Connections
N/A
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
POPS-KD (Duplex)
A POPS-KD (Duplex) packaged unit is comprised by two ADCAMat pumps in parallel, a vented receiver and all auxiliary items, compactly mounted on a metal frame, piped and ready for connection.
Material
N/A
Sizes
N/A
Connections
N/A
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
POPS-K (Simplex)
A POPS-K packaged unit is comprised by an ADCAMat pump, a vented receiver and all auxiliary items, compactly mounted on a metal frame, piped and ready for connection. Packaged units save time, work and site costs. In addition, they ensure that the installation of the pump is correct in every detail.
Material
N/A
Sizes
N/A
Connections
N/A
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
POP | DN 100
The ADCAMat POP pressure operated pump is recommended in the transfer of steam condensate, oils and other non-hazardous liquids compatible with the construction, to a higher elevation or pressure. Under certain conditions, it can drain a closed vessel under vacuum or pressure. The pump can be operated using steam, compressed air or other gases, and is manufactured in carbon steel.
Material
Carbon steel
Sizes
N/A
Connections
Flanged EN 1092-1 PN 16
Flanged ASME B16.5 Class 150
Female threaded ISO 7 Rp
Max. Pressure
10 bar
Max. Temperature
185 ºC
Regulating Range
N/A
Flow Rate
Up to 29800 kg/h
POP | DN 25 – 80
The ADCAMat POP pressure operated pump is recommended in the transfer of steam condensate, oils and other non-hazardous liquids compatible with the construction, to a higher elevation or pressure. Under certain conditions, it can drain a closed vessel under vacuum or pressure. The pump can be operated using steam, compressed air or other gases, and is manufactured in carbon steel or stainless steel.
Material
Carbon steel or stainless steel
Sizes
1” x 1” a 3″ x 2″ DN 25 x 25 a DN 80 x 50
Connections
Flanged EN 1092-1 PN 16
Flanged ASME B16.5 Class 150
Female threaded ISO 7 Rp
Max. Pressure
10 bar
Max. Temperature
185 ºC
Regulating Range
N/A
Flow Rate
Up to 6080 kg/h
Humidity Separators
S30
The S30 series baffle separators remove moisture from steam and compressed air pipelines. Steam and compressed air pass through the separator and, as a result of expansion, impact and swirling effects, the particles with a heavier specific gravity, such as water and oil droplets, moisture in suspension, dirt and scale, are separated from the fluid. The condensate collected at the bottom of the separator must be automatically drained by suitable steam or compressed air trap.
Material
Carbon steel and zinc plated body
Sizes
DN 15 to DN 300
Connections
Flanged EN PN16 or PN40
Flanged ASME Class 150 or 300
Threaded ISO 7 Rp or NPT on request
Max. Pressure
40 bar
Max. Temperature
300 ºC
Regulating Range
N/A
Flow Rate
N/A
RATING:
PN16 or PN40
SH25
The SH25/S series horizontal centrifugal separators remove moisture from steam and compressed air pipelines. Steam and compressed air pass through the separator and, as a result of centrifugal forces, impact and swirling effects, the particles with a heavier specific gravity, such as water and oil droplets, moisture in suspension, dirt and scale are separated from the fluid. The condensate collected at the bottom of the separator must be automatically drained by suitable steam or compressed air trap.
Material
Carbon steel
Sizes
1/2” to 6” – DN 15 to DN 150
Connections
Flanged EN PN 16 or PN 40
Flanged ASME Class 150 or 300
Max. Pressure
40 bar
Max. Temperature
300 ºC
Regulating Range
N/A
Flow Rate
N/A
RATING:
PN 16 or PN 40
SF251/S
The SF251/S series centrifugal separators remove moisture from steam and compressed air pipelines. Steam and compressed air pass through the separator and, as a result of centrifugal forces, impact and swirling effects, the particles with a heavier specific gravity, such as water and oil droplets, moisture in suspension, dirt and scale are separated from the fluid. The condensate collected at the bottom of the separator must be automatically drained by suitable steam or compressed air trap.
Material
Carbon steel body
Sizes
DN 15 to DN 100
Connections
Flanged EN PN16 or PN40
Flanged ASME Class 150 or 300
Max. Pressure
40 bar
Max. Temperature
300 ºC
Regulating Range
N/A
Flow Rate
N/A
S25/S HV / S25/S VH
The S25 series centrifugal separators remove moisture from steam and compressed air pipelines. Steam and compressed air pass through the separator and, as a result of centrifugal forces, impacts and swirling effects, the particles with a heavier specific gravity, such as water and oil droplets, moisture in suspension, dirt and scale are separated from the fluid. The condensate collected at the bottom of the separator must be automatically drained by suitable steam or compressed air trap.
Material
Stainless steel
Sizes
DN 15 to DN 200
Connections
Flanged EN PN16 or PN40
ASME Class 150 or 300
Threaded ISO 7 Rp or NPT on request
Max. Pressure
40 bar
Max. Temperature
300 ºC
Regulating Range
N/A
Flow Rate
N/A
S25SS
The S25 series centrifugal separators remove moisture from steam and compressed air pipelines. Steam and compressed air pass through the separator and, as a result of centrifugal forces, impacts and swirling effects, the particles with a heavier specific gravity, such as water and oil droplets, moisture in suspension, dirt and scale are separated from the fluid. The condensate collected at the bottom of the separator must be automatically drained by suitable steam or compressed air trap.
Material
Carbon steel and zinc plated body
Sizes
DN 15 to DN 300
Connections
Flanged EN PN16 or PN40
ASME Class 150 or 300
Threaded ISO 7 Rp or NPT on request
Max. Pressure
40 bar
Max. Temperature
300 ºC
Regulating Range
N/A
Flow Rate
N/A
S25S | PN63
The S25 series centrifugal separators remove moisture from steam and compressed air pipelines. Steam and compressed air pass through the separator and, as a result of centrifugal forces, impacts and swirling effects, the particles with a heavier specific gravity, such as water and oil droplets, moisture in suspension, dirt and scale are separated from the fluid. The condensate collected at the bottom of the separator must be automatically drained by suitable steam or compressed air trap.
Material
Carbon steel body
Sizes
DN 15 to DN 200
Connections
Flanged EN PN 63
Flanged ASME Class 600
Socket weld (SW) ASME
Max. Pressure
58 bar
Max. Temperature
300 ºC
Regulating Range
N/A
Flow Rate
N/A
S25S | PN16 – PN40
The S25 series centrifugal separators remove moisture from steam and compressed air pipelines. Steam and compressed air pass through the separator and, as a result of centrifugal forces, impacts and swirling effects, the particles with a heavier specific gravity, such as water and oil droplets, moisture in suspension, dirt and scale are separated from the fluid. The condensate collected at the bottom of the separator must be automatically drained by suitable steam or compressed air trap.
Material
Carbon steel body
Sizes
DN 15 to DN 300
Connections
Flanged EN PN16 or 40
Flanged ASME Class 150 or 300
Threaded ISO 7 Rp or NPT on request
Max. Pressure
40 bar
Max. Temperature
300 ºC
Regulating Range
N/A
Flow Rate
N/A
S16SS
The S16 series centrifugal separators remove moisture from steam and compressed air pipelines. Steam and compressed air pass through the separator and, as a result of centrifugal forces, impacts and swirling effects, the particles with a heavier specific gravity, such as water and oil droplets, moisture in suspension, dirt and scale are separated from the fluid. The condensate collected at the bottom of the separator must be automatically drained by suitable steam or compressed air trap.
Material
Stainless steel
Sizes
1/2” to 2”
Connections
Female threaded ISO 7 Rp or NPT
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
RATING:
PN 16 and PN 40
S16S
The S16 series centrifugal separators remove moisture from steam and compressed air pipelines. Steam and compressed air pass through the separator and, as a result of centrifugal forces, impacts and swirling effects, the particles with a heavier specific gravity, such as water and oil droplets, moisture in suspension, dirt and scale are separated from the fluid. The condensate collected at the bottom of the separator must be automatically drained by suitable steam or compressed air trap.
Material
Carbon steel
Sizes
1/2” to 2”
Connections
Female threaded ISO 7 Rp or NPT
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
RATING:
PN 16 and PN 40
Sample Coolers
SC332 – SC532
The ADCA sample coolers were specially designed to cool samples of boiler water or steam for analysis. Sample coolers prevent steam flashing-off from hot pressurised liquid samples, which can be dangerous and may result in an incorrect sample. This device may be used for boiler water analysis and other sampling or cooling applications compatible with the construction materials.
Material
Stainless steel body and coil
Sizes
N/A
Connections
Cooling water inlet/outlet: 1/2” or 3/4” (BSP or NPT)
Sample tube inlet/outlet: 10 mm O/D
Max. Pressure
20 bar (body) Up to 280 bar (coil)
Max. Temperature
120 ºC (body) Up to 550 ºC (coil)
Regulating Range
N/A
Flow Rate
N/A
SC32B / SC132B
The ADCA sample coolers are specially designed to cool samples of boiler water or steam for analysis. Sample coolers prevent steam flashing-off from hot pressurized liquid samples, which can be dangerous and may result in an incorrect sample. This device may be used for boiler water analysis and other sampling or cooling applications compatible with the construction materials.
Material
Stainless steel body and coil
Sizes
N/A
Connections
Cooling water body inlet 1/2”, outlet 1/2” (BSP or NPT)
Sample tube inlet/outlet: 8 mm O/D
Max. Pressure
20 bar (body) 110 bar (coil)
Max. Temperature
120 ºC (body) 450 ºC (coil)
Regulating Range
N/A
Flow Rate
N/A
SC32F / SC132F
The ADCA sample coolers are specially designed to cool samples of boiler water or steam for analysis. Sample coolers prevent steam flashing-off from hot pressurized liquid samples, which can be dangerous and may result in an incorrect water sample. This device may be used for boiler water analysis and other sampling or cooling applications compatible with the construction materials.
Material
Stainless steel body and coil
Sizes
N/A
Connections
Cooling water body inlet 1/2”, outlet 3/4” (BSP or NPT)
Sample tube inlet/outlet: 8 mm O/D
Max. Pressure
20 bar (body) 110 bar (coil)
Max. Temperature
120 ºC (body) 450 ºC (coil)
Regulating Range
N/A
Flow Rate
N/A
SC32 / SC132
The ADCA sample coolers are specially designed to cool samples of boiler water or steam for analysis. Sample coolers prevent steam flashing-off from hot pressurized liquid samples, which can be dangerous and may result in an incorrect sample. This device may be used for boiler water analysis and other sampling or cooling applications compatible with the construction materials.
Material
Stainless steel body and coil
Sizes
N/A
Connections
Cooling water inlet/outlet: 1/2” on body (BSP or NPT)
Sample tube inlet/outlet: 8 mm O/D
Max. Pressure
20 bar (body) 110 bar (coil)
Max. Temperature
120 ºC (body) 450 ºC (coil)
Regulating Range
N/A
Flow Rate
N/A
Direct Steam Humidifiers
DSH
The ADCA DSH series of direct steam injection humidifiers are designed to ensure highly efficient and moisture free steam injection in air ducts and AHU for humidification purposes. These units are completely manufactured from corrosion resistant stainless steel, and are available as plug and play packaged solutions or alternatively as individual components to be incorporated into humidification systems.
Material
Stainless steel
Sizes
1/2”, 1” and 11/4”
Connections
Female threaded ISO 7 Rp or NPT
Flanged and special connections on request
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
Steam Injectors
SI125 / SI140
The ADCAMix SI125 and SI140 is a series of direct steam injectors designed for rapid heating of still or flowing mediums, inside basins and vessels. Steam enters through the inlet connection, passes along the center of the device and mixes with the cool medium, which is drawn in through radial holes.
Material
Austenitic stainless steel
Sizes
1” and 11/2”
Connections
Threaded ISO 7 Rp
Max. Pressure
17 bar
Max. Temperature
95 ºC
Regulating Range
N/A
Flow Rate
N/A
RATING:
PN25
SI115
The ADCAMix SI115 is a series of direct steam injectors designed for rapid heating of still or flowing mediums, inside basins and vessels. Steam enters through the inlet connection, passes along the center of the device and mixes with the cool medium, which is drawn in through radial holes.
Material
Austenitic stainless steel
Sizes
1/2”
Connections
Threaded ISO 7 Rp
Max. Pressure
17 bar
Max. Temperature
95 ºC
Regulating Range
N/A
Flow Rate
N/A
RATING:
PN 25
SI20
The ADCAMix SI20 is a series of direct steam injectors designed for low noise heating of still or flowing mediums, inside basins and vessels.
Material
N/A
Sizes
3/4”
Connections
Female screwed ISO 7/1 Rp
Max. Pressure
8,5 bar
Max. Temperature
180 ºC
Regulating Range
N/A
Flow Rate
N/A
Packaged Units/Skids
FRECO
The ADCATtherm FRECO – flash steam heat recovery unit – is a skid mounted package unit to facilitate heat recovery from flash steam, condensate or both. The Freco is especially recommended for heating a continuous flow of fluid, such as make-up water to a boiler feedwater system. Non-continuous flow applications may require additional recirculation, relief valves, or other devices, to avoid system damage due to overheating and consequent overpressure.
Material
N/A
Sizes
N/A
Connections
N/A
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
PWHU
The ADCATherm PWHU packaged water heating units are designed for instant hot water heating in a safe and efficient way, using steam as primary fluid.
Each system is built to meet application and space requirements in a compact skid package, ready for connection into the system, reducing on-site labour and disruption time.
Material
N/A
Sizes
N/A
Connections
N/A
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
ECRUV
The ADCAMat ECRUV series electric condensate recovery units are recommended in the transfer of high-temperature water such as hot condensate, to a higher elevation or pressure. This condensate is usually used as boiler feedwater. The standard models are prepared for flows up to 4 m³/h. The units are composed of a vertical condensate vessel (receiver), a metallic support frame, electric pump, level controls, valves, prewired control panel and pipework for connections between the different elements of the units.
Material
N/A
Sizes
N/A
Connections
N/A
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
ECRU
The ADCAMAT ECRU series electric condensate recovery units are recommended in the transfer of high-temperature water such as hot condensate, to a higher elevation or pressure. This condensate is usually used as boiler feedwater. The standard models are prepared for flows up to 20 m3/h, or higher on request. The units are composed of a condensate vessel (receiver), a metallic support frame, electric pumps, level controls, valves, prewired control panel and pipework for connections between the different elements of the units.
Material
N/A
Sizes
N/A
Connections
N/A
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
ADCATherm Heat Exchangers
R SERIES
The ADCA R series steam to water tubular heating coils are shorter and lighter than the alternative tubular heating coils manufactured with smooth pipes. The use of extruded low fin tube has the advantage that it can improve the external surface and thermal performance.
Material
N/A
Sizes
N/A
Connections
Flanged EN or ASME
Threaded on request
Max. Pressure
16 bar
Max. Temperature
250 ºC
Regulating Range
N/A
Flow Rate
N/A
PAT
The ADCATherm PAT plate heat exchangers (gasketed and bolted), consist of a variable number of pressed heat transfer plates clamped together between a fixed and a movable pressure plate, all assembled in a metal frame.
Material
Carbon steel, stainless steel or special alloys
Sizes
Connections
Female threaded ISO 228 or NPT
Flanged EN 1092-1 PN 10 or ASME B16.5 Class 150
Max. Pressure
10 bar
Max. Temperature
Up to 180 ºC
Regulating Range
N/A
Flow Rate
N/A
STV
The ADCA ST series steam to water shell and tube heat exchangers are shorter and lighter than the alternative shell and tube exchangers manufactured with smooth pipes. The use of extruded low fin tubes has the advantage that it can improve the external surface and thermal performance.
Material
Carbon and stainless steel
Sizes
N/A
Connections
Flanged or threaded, according to EN or ASME standards
Max. Pressure
16 bar
Max. Temperature
250 ºC
Regulating Range
N/A
Flow Rate
N/A
STH
The ADCA ST series steam to water shell and tube heat exchangers are shorter and lighter than the alternative shell and tube exchangers manufactured with smooth pipes. The use of extruded low fin tubes has the advantage that it can improve the external surface and thermal performance.
Material
Carbon steel and stainless steel
Sizes
N/A
Connections
Flanged or threaded, according to EN or ASME standards
Max. Pressure
16 bar
Max. Temperature
250 ºC
Regulating Range
N/A
Flow Rate
N/A
STS
The ADCA STS series steam to water shell and tube heat exchangers are shorter and lighter than the alternative shell and tube exchangers manufactured with smooth pipes. The use of extruded low fin tube has the advantage that it can improve the external surface and thermal performance.
Material
Stainless steel
Sizes
Connections
Flanged or threaded, according to EN or ASME standards
Max. Pressure
16 bar
Max. Temperature
250 ºC
Regulating Range
N/A
Flow Rate
N/A
Boiler House Equipment
BV
The ADCA BV series blowdown vessels are used in modern boiler houses to cool hot waste water and steam boiler blowdown before discharging them into a pit or drain. If flash steam can not be recovered or discharged to the atmosphere, an optional condensing water spray system can be supplied. It is fitted into the top of the unit and can be controlled by a thermostat.
Material
Carbon steel or stainless steel
Sizes
N/A
Connections
Flanged EN PN16 or ASME
Max. Pressure
7 bar
Max. Temperature
180 ºC
Regulating Range
N/A
Flow Rate
N/A
BFT
The BFT boiler feed tank is one of the most important devices in a boiler room. Its main function is to store the make-up water and condensate, assuring a reserve of treated water to supply to the steam boilers. The make-up water has to be softened to prevent scale formation on the boiler and the oxygen also has to be removed, so that corrosion in the boiler and steam system is avoided.
Material
Carbon and stainless steel
Sizes
N/A
Connections
Flanged EN or ASME
ISO or NPT Threaded sockets
Max. Pressure
0.5 bar
Max. Temperature
120 ºC
Regulating Range
N/A
Flow Rate
N/A
BEX
The ADCA BEX series blowdown expansion and cooling units are used in modern boiler houses to cool hot waste water and steam boiler blowdown before discharging them into a pit or drain.
Material
Carbon steel
Sizes
N/A
Connections
Female threaded ISO 7 Rp or NPT
Flanged EN 1092-1 PN 16
Flanged ASME B16.5 Class 150
Max. Pressure
0.5 bar
Max. Temperature
120 ºC
Regulating Range
N/A
Flow Rate
N/A
FCD
The ADCA flash condensing heads are designed to promote energy efficiency on new or existing systems. Mixing the flash steam with the boiler make-up water allows the energy within the flash steam to be fully absorbed into the water and therefore reduces energy waste that normally occurs from the discharge of flash steam through a vent.
Material
Stainless steel
Sizes
N/A
Connections
Threaded ISO 7 Rp
Flanged EN or ASME
Different connections on request
Max. Pressure
0.5 bar
Max. Temperature
120 ºC
Regulating Range
N/A
Flow Rate
N/A
TDG
The TDG series tray-type thermal deaerators are designed to heat boiler feed water and reduce oxygen and carbon dioxide levels (oxygen levels in the feed water of less than 0,02 mg/l – 0,02 ppm can be achieved). Remaining oxygen can be completely removed using oxygen-scavenging chemicals. Basically, the complete system consists of a storage vessel, a deaeration section and a vent.
Material
Carbon and stainless steel
Sizes
N/A
Connections
Flanges EN or ASME
Sockets BSP or NPT
Different connections on request
Max. Pressure
0.5 bar
Max. Temperature
120 ºC
Regulating Range
N/A
Flow Rate
N/A
ADG
The ADCATherm atmospheric semi-deaerators are designed to heat boiler feed water and to reduce oxygen and carbon dioxide (oxygen values in the feed water of less than 1,6 mg/L can be achieved). Remaining oxygen can be completely removed using oxygen-scavenging chemicals. Basically, the complete system consists of a storage vessel, a deaeration head section and a vent.
Material
N/A
Sizes
N/A
Connections
Flanged EN or ASME
Sockets BSP or NPT
Max. Pressure
0.5 bar
Max. Temperature
120 ºC
Regulating Range
N/A
Flow Rate
N/A
RVST
The flash vessel is the main component in any flash recovery system. It can be used in all steam plants where high-pressure condensate is reduced to a lower pressure, so that flash steam is formed by re-evaporation. This steam can be used in a low pressure process or heating equipment.
Material
Carbon and stainless steel
Sizes
RVST08, RVST12, RVST16, RVST18
Connections
Flanged EN PN16
Max. Pressure
16 bar
Max. Temperature
250 ºC
Regulating Range
N/A
Flow Rate
N/A
RV
The flash vessel is the main component in any flash recovery system. It can be used in all steam plants where high pressure condensate is reduced to a lower pressure, so that flash steam is formed by reevaporation. This steam can be used in low pressure process or heating equipments.
Material
Carbon and stainless steel
Sizes
RV06, RV08, RV12, RV16 and RV18
Connections
Flanged EN PN16
Max. Pressure
16 bar
Max. Temperature
250 ºC
Regulating Range
N/A
Flow Rate
N/A
Complementary Equipment
LIPO
The LIPO series of condensate lifting pots are designed for installation in steam and condensate systems. They are particularly used in condensate lines where condensate must be transported without causing water hammers and noise and lifted to elevated condensate mains.
Material
Carbon and stainless steel
Sizes
DN 15 to DN 100
Connections
Flanged EN or ASME
Max. Pressure
18 bar
Max. Temperature
250 ºC
Regulating Range
N/A
Flow Rate
N/A
EH
The EH series exhaust heads were designed to protect personnel from injury and exterior of buildings from harmful effects of steam ejection to atmosphere. The head is fitted at the end of a vertical exhaust pipe and effectively retains the moisture separated from the steam for draining.
Material
Carbon, zinc plated and stainless steel body
Sizes
1” to 10” – DN 25 to DN 250
Connections
Flanged EN PN16 or ASME Class 150
Max. Pressure
0.5 bar
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
HCC
The HCC is a cooling device that allows the mixing of hot condensate with a lower temperature condensate, avoiding hammering. Condensate discharge from higher pressure lines (drip points, for instance) is often connected to low-pressure condensate lines, with lower temperatures. This sudden pressure drop will convert the sensible heat difference between the two fluid conditions into latent heat, generating flash steam.
Material
Carbon and stainless steel
Sizes
N/A
Connections
Flanged EN PN16 or PN40
Flanged ASME Class 150 or 300
Others on request
Max. Pressure
40 bar
Max. Temperature
300 ºC
Regulating Range
N/A
Flow Rate
N/A
MLI
The MLI series of bypass type magnetic level indicators were designed for continuous level indication and/or control in ADCA ECRU units and other special SKID mounted packages.
The indicators can be equipped with multiple MSB reed switches for alarm purposes or a side mounted level transmitter for continuous level monitoring.
Material
N/A
Sizes
N/A
Connections
N/A
Max. Pressure
N/A
Max. Temperature
N/A
Regulating Range
N/A
Flow Rate
N/A
AS
The AS series centrifugal air and dirt separators were designed to be used in the flow line of a hydronic heater or cooling system. The operation is based on the principle of centrifugal force, instead of relying on low-velocity separation, offering the advantage of efficient separation in a smaller vessel. The ADCA AS units provides maximum separation efficiency while minimizing space requirements.
Material
Carbon, zinc plated and stainless steel body
Sizes
11/4” to 2” – DN 32 to DN 300
Connections
Threaded ISO 7 Rp
Flanged EN PN16 or PN40
Flanged ASME Class 150 or 300
Special flanges upon request
Max. Pressure
40 bar
Max. Temperature
300 ºC
Regulating Range
N/A
Flow Rate
N/A