Chemistry pumping units VARIO® select PC 3003
The combination of speed controlled VARIO® chemistry diaphragm pumps and the new VACUU·SELECT vacuum controller makes the VARIO® select chemistry pumps the ideal solution for chemical processes that require precise vacuum, such as rotary evaporation, vacuum drying or vacuum concentration.High chemical resistance and therefore ideally suited for pumping aggressive gases and vapoursShort process times and smooth running due to optimal setting of the pressure via the VACUU·SELECT controllerThe VARIO® technology controls the vacuum precisely and efficiently via motor speedPower consumption, maintenance and noise are exceptionally lowThe outlet catchpot and solvent condenser combine to prevent solvent vapor emissions into the lab, allowing for nearly full recovery of solventsCountry-specific power cord versions available on request.The combination of speed controlled VARIO® chemistry diaphragm pumps and the new VACUU·SELECT vacuum controller makes the VARIO® select chemistry pumps the ideal solution for chemical processes that require precise vacuum, such as rotary evaporation, vacuum drying or vacuum concentration.High chemical resistance and therefore ideally suited for pumping aggressive gases and vapoursShort process times and smooth running due to optimal setting of the pressure via the VACUU·SELECT controllerThe VARIO® technology controls the vacuum precisely and efficiently via motor speedPower consumption, maintenance and noise are exceptionally lowThe outlet catchpot and solvent condenser combine to prevent solvent vapor emissions into the lab, allowing for nearly full recovery of solventsCountry-specific power cord versions available on request.
Chemistry pumping units VARIO® select PC 3004
The combination of speed controlled VARIO® chemistry diaphragm pumps and the new VACUU·SELECT vacuum controller makes the VARIO® select chemistry pumps the ideal solution for chemical processes that require precise vacuum, such as rotary evaporation, vacuum drying or vacuum concentration.High chemical resistance and therefore ideally suited for pumping aggressive gases and vapoursShort process times and smooth running due to optimal setting of the pressure via the VACUU·SELECT controllerThe VARIO® technology controls the vacuum precisely and efficiently via motor speedPower consumption, maintenance and noise are exceptionally lowThe outlet catchpot and solvent condenser combine to prevent solvent vapor emissions into the lab, allowing for nearly full recovery of solventsCountry-specific power cord versions available on request.The combination of speed controlled VARIO® chemistry diaphragm pumps and the new VACUU·SELECT vacuum controller makes the VARIO® select chemistry pumps the ideal solution for chemical processes that require precise vacuum, such as rotary evaporation, vacuum drying or vacuum concentration.High chemical resistance and therefore ideally suited for pumping aggressive gases and vapoursShort process times and smooth running due to optimal setting of the pressure via the VACUU·SELECT controllerThe VARIO® technology controls the vacuum precisely and efficiently via motor speedPower consumption, maintenance and noise are exceptionally lowThe outlet catchpot and solvent condenser combine to prevent solvent vapor emissions into the lab, allowing for nearly full recovery of solventsCountry-specific power cord versions available on request.
Chemistry pumping units VARIO® select PC 3010 NT
The combination of speed controlled VARIO® chemistry diaphragm pumps and the new VACUU·SELECT vacuum controller makes the VARIO® select chemistry pumps the ideal solution for chemical processes that require precise vacuum, such as rotary evaporation, vacuum drying or vacuum concentration.High chemical resistance and therefore ideally suited for pumping aggressive gases and vapoursShort process times and smooth running due to optimal setting of the pressure via the VACUU·SELECT controllerThe VARIO® technology controls the vacuum precisely and efficiently via motor speedPower consumption, maintenance and noise are exceptionally lowThe outlet catchpot and solvent condenser combine to prevent solvent vapor emissions into the lab, allowing for nearly full recovery of solventsCountry-specific power cord versions available on request.The combination of speed controlled VARIO® chemistry diaphragm pumps and the new VACUU·SELECT vacuum controller makes the VARIO® select chemistry pumps the ideal solution for chemical processes that require precise vacuum, such as rotary evaporation, vacuum drying or vacuum concentration.High chemical resistance and therefore ideally suited for pumping aggressive gases and vapoursShort process times and smooth running due to optimal setting of the pressure via the VACUU·SELECT controllerThe VARIO® technology controls the vacuum precisely and efficiently via motor speedPower consumption, maintenance and noise are exceptionally lowThe outlet catchpot and solvent condenser combine to prevent solvent vapor emissions into the lab, allowing for nearly full recovery of solventsCountry-specific power cord versions available on request.
Chemistry pumping units VARIO® select PC 3012 NT
The combination of speed controlled VARIO® chemistry diaphragm pumps and the new VACUU·SELECT vacuum controller makes the VARIO® select chemistry pumps the ideal solution for chemical processes that require precise vacuum, such as rotary evaporation, vacuum drying or vacuum concentration.High chemical resistance and therefore ideally suited for pumping aggressive gases and vapoursShort process times and smooth running due to optimal setting of the pressure via the VACUU·SELECT controllerThe VARIO® technology controls the vacuum precisely and efficiently via motor speedPower consumption, maintenance and noise are exceptionally lowThe outlet catchpot and solvent condenser combine to prevent solvent vapor emissions into the lab, allowing for nearly full recovery of solventsCountry-specific power cord versions available on request.The combination of speed controlled VARIO® chemistry diaphragm pumps and the new VACUU·SELECT vacuum controller makes the VARIO® select chemistry pumps the ideal solution for chemical processes that require precise vacuum, such as rotary evaporation, vacuum drying or vacuum concentration.High chemical resistance and therefore ideally suited for pumping aggressive gases and vapoursShort process times and smooth running due to optimal setting of the pressure via the VACUU·SELECT controllerThe VARIO® technology controls the vacuum precisely and efficiently via motor speedPower consumption, maintenance and noise are exceptionally lowThe outlet catchpot and solvent condenser combine to prevent solvent vapor emissions into the lab, allowing for nearly full recovery of solventsCountry-specific power cord versions available on request.
Chemistry pumping units VARIO® select PC 3016 NT
The combination of speed controlled VARIO® chemistry diaphragm pumps and the new VACUU·SELECT vacuum controller makes the VARIO® select chemistry pumps the ideal solution for chemical processes that require precise vacuum, such as rotary evaporation, vacuum drying or vacuum concentration.High chemical resistance and therefore ideally suited for pumping aggressive gases and vapoursShort process times and smooth running due to optimal setting of the pressure via the VACUU·SELECT controllerThe VARIO® technology controls the vacuum precisely and efficiently via motor speedPower consumption, maintenance and noise are exceptionally lowThe outlet catchpot and solvent condenser combine to prevent solvent vapor emissions into the lab, allowing for nearly full recovery of solventsCountry-specific power cord versions available on request.The combination of speed controlled VARIO® chemistry diaphragm pumps and the new VACUU·SELECT vacuum controller makes the VARIO® select chemistry pumps the ideal solution for chemical processes that require precise vacuum, such as rotary evaporation, vacuum drying or vacuum concentration.High chemical resistance and therefore ideally suited for pumping aggressive gases and vapoursShort process times and smooth running due to optimal setting of the pressure via the VACUU·SELECT controllerThe VARIO® technology controls the vacuum precisely and efficiently via motor speedPower consumption, maintenance and noise are exceptionally lowThe outlet catchpot and solvent condenser combine to prevent solvent vapor emissions into the lab, allowing for nearly full recovery of solventsCountry-specific power cord versions available on request.
Chemistry vacuum system MD 12C NT EK
This chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeA separator at the inlet (AK) can be mounted later to this systemThis chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeA separator at the inlet (AK) can be mounted later to this system
Chemistry vacuum system ME 8C NT 2AK
This chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The separator at the outlet collects condensate and avoids condensate backflow towards the pump.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeInlet and outlet separatorThis chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The separator at the outlet collects condensate and avoids condensate backflow towards the pump.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeInlet and outlet separator
Chemistry vacuum system MV 10C NT EK
This chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeA separator at the inlet (AK) can be mounted later to this systemThis chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeA separator at the inlet (AK) can be mounted later to this system
Chemistry vacuum system MZ 2C NT 2AK
This chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The separator at the outlet collects condensate and avoids condensate backflow towards the pump.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeInlet and outlet separatorThis chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The separator at the outlet collects condensate and avoids condensate backflow towards the pump.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeInlet and outlet separator
Chemistry vacuum system MZ 2C NT AK/M/D
For evacuation, evaporation and pumping of gases and vapors in chemical, biological and pharmaceutical laboratories where there are no requirements for condensation of solvent vapors at the outlet. The manual flow control valve regulates the effective pumping speed at the vacuum connection, the vacuum manometer offers an analog vacuum display. This system is well proven for filtration. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationManual vacuum controlAnalog vacuum displayOilfree
Chemistry vacuum system, MD 12C NT AK/EK
This chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeThis chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfree
Chemistry vacuum system, MD 1C AK/EK
This chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeThis chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfree
Chemistry vacuum system, MD 4C NT AK SYNCHRO/EK
This chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeSimultaneous operation of two independent vacuum applications, with reliable check valves to prevent interference between systems
Chemistry vacuum system, MD 4C NT AK/EK
This chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeThis chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfree
Chemistry vacuum system, MZ 2C NT AK SYNCHRO/EK
This chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeSimultaneous operation of two independent vacuum applications, with reliable check valves to prevent interference between systems
Chemistry vacuum system, MZ 2C NT AK/EK
This chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeThis chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfree
Chemistry vacuum system, MZ 2C NT AK/EK Peltronic
This chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfreeThis chemistry vacuum system has a wide range of applications like evacuation, evaporation and pumping of gases and vapors. The separator at the inlet (AK), made of glass with a protective coating, retains particles and liquid droplets. The waste vapor condenser at the outlet (EK) enables near 100 percent solvent recovery.Good chemical resistance and vapor toleranceHigh performance even at low vacuumGood vacuum even with gas ballastQuiet and ultra low vibrationOilfree
CO2 wire baskets for cold traps with Dewar flask
When using CO2 as a coolant, the CO2 wire basket facilitates the replacement of the cold trap.
Cold trap with Dewar flask type 18 C, stainless steel 1.4301, two-piece, for liquid nitrogen
Stainless steel cold trap with Dewar flask for vacuum applications. Ideal for condensing out moisture or solvents. Dewar flask made of borosilicate glass 3.3 is vacuum-insulated, silver-plated and have a blue-coated metal protective jacket with a support ring into which the cold trap is hung.Cold trap connection: KF NW small vacuum flangeSpring steel clamp to secure the connecting part (KF NW 50)Scope of supply: Cold trap, support ring, Dewar flask type 18 C, spring steel clampThis assembly is designed for use with LN2 as coolant.
Cold trap with Dewar flask type DSS 2000, stainless steel 1.4301, two-piece, for dry ice
Stainless steel cold trap with Dewar flask for vacuum applications. Ideal for condensing out moisture or solvents. Dewar flask made of stainless steel with support ring into which the cold trap is hung.Cold trap connection: KF NW small vacuum flangeSpring steel clamp to secure the connecting part (KF NW 50)CO2 wire basket facilitates replacement of the cold trapScope of supply: Cold trap, support ring, CO2 wire basket, Dewar flask type DSS 2000, spring steel clampThis assembly is designed for use with CO2 as coolant.
Cold trap with Dewar flask type DSS 2000, stainless steel 1.4301, two-piece, for liquid nitrogen
Stainless steel cold trap with Dewar flask for vacuum applications. Ideal for condensing out moisture or solvents. Dewar flask made of stainless steel with support ring into which the cold trap is hung.Cold trap connection: KF NW small vacuum flangeSpring steel clamp to secure the connecting part (KF NW 50)Scope of supply: Cold trap, support ring, Dewar flask type DSS 2000, spring steel clampThis assembly is designed for use with LN2 as coolant.
Cold traps with Dewar flask, borosilicate glass 3.3, one-piece, long version
One-piece cold trap with matching Dewar flask made of borosilicate glass 3.3 for vacuum applications. Ideal for condensing out moisture or solvents. The Dewar flasks are vacuum-insulated, silver-plated and have a blue-coated metal protective jacket with a support ring into which the cold trap is hung.The extended condensate area of the cold traps can hold a larger volume of condensate.Versions of the cold trap connections:S 29 = spherical ground joint S 29O 29 = spherical ground joint S 29 with O-ring sealGL 18 = glass thread GL 18 with PTFE olive Ø 10 mmScope of supply: Cold trap, support ring, Dewar flask type 18 CThe standard assembly is designed for use with LN2 as coolant. When using CO2 and acetone please order CO2 wire basket separately.
Cold traps with Dewar flask, borosilicate glass 3.3, one-piece, long version with KF NW small vaccum flange
One-piece cold trap with matching Dewar flask made of borosilicate glass 3.3 for vacuum applications. Ideal for condensing out moisture or solvents. The Dewar flasks are vacuum-insulated, silver-plated and have a blue-coated metal protective jacket with a support ring into which the cold trap is hung.Extended condensate area of the cold traps can hold a larger volume of condensateKF NW small vacuum flange made of glass for connecting pumping units with small metal vacuum flanges (ISO 2861) to the cold trapsScope of supply: Cold trap, support ring, Dewar flask type 18 CThe standard assembly is designed for use with LN2 as coolant. When using CO2 and acetone please order CO2 wire basket separately.
Cold traps with Dewar flask, borosilicate glass 3.3, one-piece, long version with spout
One-piece cold trap with matching Dewar flask made of borosilicate glass 3.3 for vacuum applications. Ideal for condensing out moisture or solvents. The Dewar flasks are vacuum-insulated, silver-plated and have a blue-coated metal protective jacket with a support ring into which the cold trap is hung.Extended condensate area of the cold traps can hold a larger volume of condensateCold trap with glass thread GL 32 and screw cap as a spoutVersions of the cold trap connections:S 29 = spherical ground joint S 29O 29 = spherical ground joint S 29 with O-ring sealGL 18 = glass thread GL 18 with PTFE olive Ø 10 mmScope of supply: Cold trap, support ring, Dewar flask type 18 CThe standard assembly is designed for use with LN2 as coolant. When using CO2 and acetone please order CO2 wire basket separately.
Cold traps with Dewar flask, borosilicate glass 3.3, one-piece, standard version
One-piece cold trap with matching Dewar flask made of borosilicate glass 3.3 for vacuum applications. Ideal for condensing out moisture or solvents. The Dewar flasks are vacuum-insulated, silver-plated and have a blue-coated metal protective jacket with a support ring into which the cold trap is hung.Versions of the cold trap connections:S 29 = spherical ground joint S 29O 29 = spherical ground joint S 29 with O-ring sealGL 18 = glass thread GL 18 with PTFE olive Ø 10 mmScope of supply: Cold trap, support ring, Dewar flask type 12 CThe standard assembly is designed for use with LN2 as coolant. When using CO2 and acetone please order CO2 wire basket separately.
Cold traps with Dewar flask, borosilicate glass 3.3, one-piece, standard version with KF NW small vacuum flange
One-piece cold trap with matching Dewar flask made of borosilicate glass 3.3 for vacuum applications. Ideal for condensing out moisture or solvents. The Dewar flasks are vacuum-insulated, silver-plated and have a blue-coated metal protective jacket with a support ring into which the cold trap is hung.With the KF NW small vacuum flange made of glass, pumping units with small metal vacuum flanges (ISO 2861) can be connected to the cold traps.Scope of supply: Cold trap, support ring, Dewar flask type 12 CThe standard assembly is designed for use with LN2 as coolant. When using CO2 and acetone please order CO2 wire basket separately.
Cold traps with Dewar flask, borosilicate glass 3.3, one-piece, standard version with spout
One-piece cold trap with matching Dewar flask made of borosilicate glass 3.3 for vacuum applications. Ideal for condensing out moisture or solvents. The Dewar flasks are vacuum-insulated, silver-plated and have a blue-coated metal protective jacket with a support ring into which the cold trap is hung.Cold traps have an additional glass thread GL 32 with screw cap as a spout.Versions of the cold trap connections:S 29 = spherical ground joint S 29O 29 = spherical ground joint S 29 with O-ring sealGL 18 = glass thread GL 18 with PTFE olive Ø 10 mmScope of supply: Cold trap, support ring, Dewar flask type 12 CThe standard assembly is designed for use with LN2 as coolant. When using CO2 and acetone please order CO2 wire basket separately.
Cold traps with Dewar flask, borosilicate glass 3.3, two-piece, long version
Two-piece cold trap with matching Dewar flask made of borosilicate glass 3.3 for vacuum applications. The condensate area can be separated from the upper part of the cold trap. The Dewar flasks are vacuum-insulated, silver-plated and have a blue-coated metal protective jacket with a support ring into which the cold trap is hung. Including spring steel clamp to secure the connecting part (NS 45/40 conical ground joint).The extended condensate area of the cold traps can hold a larger volume of condensate.Versions of the cold trap connections:S 29 = spherical ground joint S 29GL 18 = glass thread GL 18 with PTFE olive Ø 10 mmScope of supply: Cold trap, support ring, Dewar flask type 18 C, spring steel clampThe standard assembly is designed for use with LN2 as coolant. When using CO2 and acetone please order CO2 wire basket separately.
Cold traps with Dewar flask, borosilicate glass 3.3, two-piece, standard version
Two-piece cold trap with matching Dewar flask made of borosilicate glass 3.3 for vacuum applications. The condensate area can be separated from the upper part of the cold trap. The Dewar flasks are vacuum-insulated, silver-plated and have a blue-coated metal protective jacket with a support ring into which the cold trap is hung. Including spring steel clamp to secure the connecting part (NS 45/40 conical ground joint).Versions of the cold trap connections:O 29 = spherical ground joint S 29 with O-ring sealGL 18 = glass thread GL 18 with PTFE olive Ø 10 mmScope of supply: Cold trap, support ring, Dewar flask type 12 C, spring steel clampThe standard assembly is designed for use with LN2 as coolant. When using CO2 and acetone please order CO2 wire basket separately.
Cold traps, borosilicate 3.3, one-piece
Borosilicate 3.3 glass, one-piece, with GL 45 neck and cap closure, GL 14 threaded side connections with caps and plastic tubing adapters.
Cold traps, DURAN® tubing, with condensate drain
Cold trap for direct filling of cooling agents, low cooling agent consumption due to double-walled design, apparatus connection: socket NS 29/32, vacuum pump connection: cone NS 29/32, made of DURAN® tubing.
Cold traps, DURAN® tubing, without condensate drain
Cold trap for direct filling of cooling agents, low cooling agent consumption due to double-walled design, apparatus connection: socket NS 29/32, vacuum pump connection: cone NS 29/32, made of DURAN® tubing.
Compact Vacuum Controller VACUU·SELECT®, benchtop version
Fully equipped two-point vacuum controller with capacitive, gas type-independent absolute pressure measurement using an alumina-ceramic diaphragm. Ready to use due to standard laboratory connections.Scope of supply: Vacuum controller VACUU·SELECT® with chemistry suction line valve, check valve, integrated ceramic vacuum sensor, venting valve and power supply.Fully equipped two-point vacuum controller with capacitive, gas type-independent absolute pressure measurement using an alumina-ceramic diaphragm. Ready to use due to standard laboratory connections.Scope of supply: Vacuum controller VACUU·SELECT® with chemistry suction line valve, check valve, integrated ceramic vacuum sensor, venting valve and power supply.
Compact Vacuum Controller VACUU·SELECT®, stand version
Fully equipped two-point vacuum controller with capacitive, gas type-independent absolute pressure measurement using an alumina-ceramic diaphragm. Ready to use due to standard laboratory connections.Scope of supply: Vacuum controller VACUU·SELECT® with chemistry suction line valve, check valve, integrated ceramic vacuum sensor, venting valve and power supply.Fully equipped two-point vacuum controller with capacitive, gas type-independent absolute pressure measurement using an alumina-ceramic diaphragm. Ready to use due to standard laboratory connections.Scope of supply: Vacuum controller VACUU·SELECT® with chemistry suction line valve, check valve, integrated ceramic vacuum sensor, venting valve and power supply.
Compressor station SICOLAB
Small, quiet compressor for use with compressed air in laboratories. The oil-free piston compressor is long-lasting, reduces maintenance requirements, and ensures clean air and accurate measurement results. The compressor station runs with low vibration and reduces noise levels thanks to special sound insulation. Swivel castors and integrated carrying handles enable mobile use.Compact ‘under-bench design’Suitable for 100 % continuous operationReady to connect: quick and easy start-up thanks to plug-and-playIntuitive operation thanks to clearly arranged controlsAutomatic condensate evaporator - no manual emptying requiredAdjustable output pressure up to 8 barCorrosion-protected, antibacterial container interior coatingTwo compressed air outlets: air extraction via a quick coupling at the front and an additional compressed air outlet at the rearEnvironmentally friendly thanks to oil-free technologyMaintenance-free except for filter replacement, no oil changeSmall, quiet compressor for use with compressed air in laboratories. The oil-free piston compressor is long-lasting, reduces maintenance requirements, and ensures clean air and accurate measurement results. The compressor station runs with low vibration and reduces noise levels thanks to special sound insulation. Swivel castors and integrated carrying handles enable mobile use.Compact ‘under-bench design’Suitable for 100 % continuous operationReady to connect: quick and easy start-up thanks to plug-and-playIntuitive operation thanks to clearly arranged controlsAutomatic condensate evaporator - no manual emptying requiredAdjustable output pressure up to 8 barCorrosion-protected, antibacterial container interior coatingTwo compressed air outlets: air extraction via a quick coupling at the front and an additional compressed air outlet at the rearEnvironmentally friendly thanks to oil-free technologyMaintenance-free except for filter replacement, no oil change
Compressor station SICOLAB M, with membrane dryer
Small, quiet compressor for use with compressed air in laboratories. The oil-free piston compressor is long-lasting, reduces maintenance requirements, and ensures clean air and accurate measurement results. The compressor station runs with low vibration and reduces noise levels thanks to special sound insulation. Swivel castors and integrated carrying handles enable mobile use.Compact ‘under-bench design’Suitable for 100 % continuous operationReady to connect: quick and easy start-up thanks to plug-and-playIntuitive operation thanks to clearly arranged controlsAutomatic condensate evaporator - no manual emptying requiredAdjustable output pressure up to 8 barCorrosion-protected, antibacterial container interior coatingTwo compressed air outlets: air extraction via a quick coupling at the front and an additional compressed air outlet at the rearEnvironmentally friendly thanks to oil-free technologyMaintenance-free except for filter replacement, no oil changeThe membrane drying system ensures dry compressed air even during continuous operation to protect sensitive instruments and ensure hygienic conditions. It does not require any regeneration interruptions, and the patented pressure relief valve optimises start-up behaviour. The pressure dew point can be adjusted to the individual requirements using various nozzles (pressure dew point reduction of up to 65 K possible).