Nitrogen Generator NITROBERG® 500
2.8 Nm3/h (99.99%)
Capacity (Nm3/h)
Nitrogen content
97%
98%
99%
99.5%
99.9%
99.99%
99.995%
99.999%
Capacity Nm3/h
17.3
14.9
12.6
9.2
5.1
2.8
2.1
1.4
Compressed air factor
2.3
2.3
2.6
2.9
3.6
5.1
5.7
6.9
Compressed air Nm3/h
39.8
34.3
32.8
26.7
18.4
14.3
12.0
9.7
Compressed air m3/h *
42.7
36.8
35.2
28.6
19.7
15.3
12.8
10.4
Product vessel (l)
90
90
90
90
90
90
90
90
Compressed air vessel (l)
150
150
150
150
150
150
150
150
Technical Data of Nitrogen Generator NITROBERG® 500
Nitrogen Generator
NITROBERG® 500
Part No.
1020200500
Dimensions
630x930x1600 LxWxH (mm)
Design pressure
11 bar
Operating pressure
7 bar
Net weight
180 kg
Noise level
55 max 85 dB (A)
Ambient temperature
+5 to +40 °C
Electrical connection
230V 50Hz 110V 60 Hz
Power consumption
150 W
Safety class
54 IP
Inlet Filtration **
0.01 micron
Inlet filtration ** (Active carbon filter)
0.003 micron
Outlet Filtration **
3 to 5 micron
Temperature *
20 ° C
Above Sea Level *
0 m
Pressure *
1.0133 bar
Humidity *
70%
* Consult us for performance under other specific conditions ** Optional
Laboratory nitrogen gas generators
NITROBERG® nitrogen generators are able to produce nitrogen gas at high purity levels (up to 99.999%) using PSA (Pressure Swing Adsorption) technology. These generators are compact and efficient, making them ideal for laboratory settings where space may be limited.
The small size of NITROBERG® nitrogen generators allows them to be easily installed in laboratories without taking up much space. Additionally, the generators are designed to be energy-efficient, which helps reduce operating costs and makes them a cost-effective solution for laboratories.
Furthermore, NITROBERG® nitrogen generators are easy to use and require minimal maintenance, making them a convenient and reliable source of nitrogen gas for laboratories. Their compact size, efficiency, and ease of use make them a practical choice for laboratories needing a reliable nitrogen gas supply.
The advances of using nitrogen generators for produce gas nitrogen in laboratories
Using nitrogen generators in laboratories offers several advantages over traditional methods of sourcing nitrogen gas. Some of the key benefits include: Cost-effectiveness: Nitrogen generators eliminate the need for purchasing nitrogen cylinders, which can be costly over time. By producing nitrogen on-site, laboratories can significantly reduce their operational expenses. Convenience and reliability: With a nitrogen generator, laboratories have a continuous and reliable source of nitrogen gas available on-demand. This eliminates the risk of running out of nitrogen at critical moments and ensures consistent gas quality for experiments and processes. Safety: Handling and storing nitrogen cylinders can pose safety risks, especially in laboratory environments. Nitrogen generators eliminate the need for handling pressurized gas cylinders, reducing the potential hazards associated with their use. Environmental sustainability: By generating nitrogen on-site, laboratories can reduce their carbon footprint by eliminating the transportation and disposal of nitrogen cylinders. This environmentally friendly approach aligns with sustainability goals and reduces overall environmental impact. Customization and flexibility: Nitrogen generators can be tailored to meet specific purity and flow rate requirements, allowing laboratories to customize their nitrogen gas supply based on their unique needs. This flexibility ensures that laboratories can optimize their gas supply for different applications.
The use of NITROBERG® nitrogen generators in laboratories offers a cost-effective, convenient, safe, and environmentally sustainable solution for producing high-purity nitrogen gas on-site. These advances make nitrogen generators a valuable asset for enhancing laboratory operations and ensuring reliable gas supply for various applications.
Downloads
Technical Data Nitrogen Generator NITROBERG® 500, PDF( Size: 82 KB )
A Complete NITROGEN Package NITROBERG® 500N2 Generator NITROBERG®️500 with Purity and Pressure sensors Air receiver 150lit with condensate drain NITROGEN Vessels 90lit with all accessories Compressed air Filter line class 1.-.1 acc. ISO8573-1 (PUREBERG®️ F02 WW Water separator, PUREBERG® Z 04 oil free package)Compressed Air Dryer (Refrigerator DRYBERG® RF02 or Adsorption Dryer DRYBERG® AD35) Metal frame Skid mounted with piping and electrical wiring 2x1 Air Compressor (Stationary Screw Compressor KOMPBERG® BSDKF11)(optional)
Installation of Plant on a common metal skid frameBase frame layout documentation: Assembly layout drawing, R&I Scheme, Plant description, List of electric / electronic consumers, Operation - & Maintenance Manual, List of spare & wearing parts, Wiring diagrams, terminal clamp diagrams, Functions drawing, Material evidence - Further documentations on request!We use compressed air for so many applications such as mineral and cement industry, Automobile industry, Steel plants, Chemicals, Pharmaceuticals, Food & Beverage, Semiconductor & Electronics, Medical Breathing Air and also O2 or N2 PSA generators that depends on Applications we need different quality that we should the contaminates (particle, water, Oil) from-compressed air.
Certifications, Standards, Codes and Regulations All work, materials and equipment covered by this quotation shall comply with the applicable codes, regulations and standards of the Federal Republic of Germany. The applicable codes and standards are as listed below:
- DIN-Standards
- VDI/VDE-Regulations
- IEC-Standards
- UVV-Regulations
Other standards codes and regulations are also possible after agreement e. g. ASME, ATEX, GL, BV or others
Nitrogen Generator for LC/MS It is used for applications like isotope dating, trace gas analysis, and drug manufacture. Mass spectrometry has provided answers to pressing scientific questions. BERG GaseTech GmbH as made in Germany solution works directly with labs to provide the most efficient and cost-effective solutions available.
why do we use of nitrogen in mass spectrometers?
Nitrogen is typically used when removing sample solvents to prevent them from reaching LC/MS components where they are not needed. Nitrogen eliminates solvents before they reach spectroscopic detectors, compromising test quality. The following describes the different ways nitrogen can be used in an LC/MS. Nitrogen in Electrospray Ionization Detectors Nitrogen in Atmospheric Pressure Ionization DetectorsNitrogen Curtain GasUsing a nitrogen generator for LC/MS
For operators using LC/MS instruments, opting to integrate an on-site nitrogen generator could be one of the best options for their analytical processes. The use of a nitrogen generator offers various advantages, including lower production costs, ease of use and comfort, increased operational safety and a reduction in overall energy costs. Electronics manufacturing applications with skid industrial nitrogen generators
In electronics manufacturing, skid industrial nitrogen generators are used for a variety of applications. Nitrogen is commonly used for soldering and reflow processes to prevent oxidation and improve the quality of electronic components. It is also used for inerting during the production of semiconductors and other electronic materials to prevent contamination and ensure product purity. Additionally, nitrogen is used for wave soldering, where it helps to reduce dross formation and improve solder joint quality. It can also be used for testing and flushing of electronic components and systems to ensure proper functionality and reliability. Furthermore, nitrogen is used for pick and place machines, where it helps to prevent component misalignment and improve the accuracy of placement. It is also used for conformal coating applications to prevent moisture ingress and improve the longevity of electronic products. Overall, skid industrial nitrogen generators play a crucial role in providing a reliable and on-site nitrogen supply for various applications in electronics manufacturing, helping to improve product quality, reliability, and performance.
Downloads
Technical Data NITROGEN Generator NITROBERG® 500, PDF( Size: 90 MB )
BEKO condensate drain BEKOMAT® 20BEKOMAT® 20 | 20FM for Filters and water separators
The BEKOMAT 20 is a strong condensate drain designed for use in water separators and air filters. It is suitable for oil-lubricated plants as well as oil-free compressors. The control panel is accessible from the top and the front. It has a plastic housing with integrated aluminum condensate container. The BEKOMAT 20 FM with integrated filter management is a cost effective monitoring solution for the service filters element.
Technical data of BEKOMAT® 20
BEKOMAT®
BEKOMAT® 20
Max. compressor performance [m³/min]
4
Max. dryer performance [m³/min]
8
Max. filter performance [m3/min]
40
Voltage
230VAC / 50-60Hz
Operating pressure [bar]
0,8 - 16
Temperature [°C]
+1 to + 60
Condensate feed
1 x G 1/2 , 1 x G 3/4
Condensate drain
DN 8-10 bzw. G 1/4i
Dimensions B x T x H [mm]
140 x 72 x 140
Weight [kg]
ca. 0,7
Here are some advantages and uses of the BEKOMAT 20: Efficient condensate drainage: The BEKOMAT 20 is designed to effectively remove condensate from compressed air systems, ensuring optimal performance and preventing damage to downstream equipment. Energy-saving: The unit operates based on demand, meaning it only activates when condensate needs to be drained, helping to reduce energy consumption. Easy maintenance: The BEKOMAT 20 is designed for easy installation and maintenance, making it user-friendly for operators. Reliable operation: Beko Technologies is known for producing high-quality products, and the BEKOMAT 20 is no exception, offering reliable performance in industrial applications.
BEKOMAT 20 Applications:Industrial compressed air systems: The BEKOMAT 20 is commonly used in industrial settings where compressed air is a critical component of operations, such as manufacturing plants, automotive facilities, and food processing plants. Air compressors: The unit can be installed in conjunction with air compressors to ensure efficient condensate removal and protect the integrity of the compressed air system. Pneumatic tools and equipment: The BEKOMAT 20 can help maintain the performance and longevity of pneumatic tools and equipment by preventing moisture buildup in the air supply. Overall, the BEKOMAT 20 is a reliable and efficient condensate drain unit that offers several advantages in maintaining the performance of compressed air systems.
Downloads
Technical Data BEKOMAT® 20, PDF (Size: 2.5 MB) BEKOMAT® 20 datasheets, PDF ( Size: 330 KB )
A Complete Oxygen Package OXYBERG® 600O2 Generator OXYBERG® 600 with Purity and Pressure sensorsAir receiver 150lit with condensate drainOxygen Vessels 90lit with all accessoriesCompressed air Filter line class 1.-.1 acc. ISO8573-1 (PUREBERG®️ F03 WW Water separator, PUREBERG® Z 150 oil free package)Compressed Air Dryer (Adsorption Dryer DRYBERG® AD150CT)Metal frame Skid mounted with piping and electrical wiring 2x1Air Compressor (Stationary Screw Compressor KOMPBERG® BSDKF7)(optional)Installation of Plant on a common metal skid frameBase frame layout documentation: Assembly layout drawing, R&I Scheme, Plant description, List of electric / electronic consumers, Operation - & Maintenance Manual, List of spare & wearing parts, Wiring diagrams, terminal clamp diagrams, Functions drawing, Material evidence - Further documentations on request!We use compressed air for so many applications such as mineral and cement industry, Automobile industry, Steel plants, Chemicals, Pharmaceuticals, Food & Beverage, Semiconductor & Electronics, Medical Breathing Air and also O2 or N2 PSA generators that depends on Applications we need different quality that we should the contaminates (particle, water, Oil) from-compressed air.
Certifications, Standards, Codes and Regulations All work, materials and equipment covered by this quotation shall comply with the applicable codes, regulations and standards of the Federal Republic of Germany. The applicable codes and standards are as listed below:
- DIN-Standards
- VDI/VDE-Regulations
- IEC-Standards
- UVV-Regulations
Other standards codes and regulations are also possible after agreement e. g. ASME, ATEX, GL, BV or others BIOGAS PLANTS With SKID Oxygen generators - OXYBERG® In biogas plants, skid oxygen generators can be used to enhance the efficiency of the anaerobic digestion process. By introducing oxygen into the digesters, the breakdown of organic materials is accelerated, resulting in increased biogas production. Skid oxygen generators can be integrated into biogas plants to provide a continuous and reliable supply of oxygen for the digestion process. This helps to optimize the production of biogas, which can be used as a renewable energy source for power generation or heating. The use of skid oxygen generators in biogas plants also reduces the reliance on traditional sources of oxygen, such as compressed oxygen cylinders or liquid oxygen, and eliminates the need for frequent deliveries and storage of these materials. Overall, skid oxygen generators offer a sustainable and cost-effective solution for enhancing the performance of biogas plants by providing a consistent supply of oxygen for the anaerobic digestion process.
Downloads
Technical Data Oxygen Generator OXYBERG® 600, PDF( Size: 90 MB )
BEKO condensate drain BEKOMAT® 20 FMBEKOMAT® 20 | 20FM for Filters and water separators
The BEKOMAT® 20 FM with integrated filter management (filter status time display and filter status control) is a cost-effective monitoring solution for the connected filter element. It is designed as a robust condensate drain for water separators, filters or similar applications and can be used both in systems with oil-lubricated as well as with oil-free compressors. The plastic housing of the BEKOMAT 20 FM is equipped with an internal aluminum condensate container. The front panel is visible and can be operated from the top and the front.
Technical data of BEKOMAT® 20 FM
BEKOMAT®
BEKOMAT® 20FM
Max. compressor performance [m³/min]
4
Max. dryer performance [m³/min]
8
Max. filter performance [m3/min]
40
Voltage
230VAC / 50-60Hz
Operating pressure [bar]
0,8 - 16
Temperature [°C]
+1 bis + 60
Condensate feed
1 x G 1/2 , 1 x G 3/4
Condensate drain
DN 8-10 bzw. G 1/4i
Dimensions B x T x H [mm]
140 x 72 x 140
Weight [kg]
ca. 0,7
There are difference between BEKOMAT 20 and BEKOMAT 20 FM.
The main difference between the two lies in their functionality. BEKOMAT 20 is a standard condensate drain unit that is designed to efficiently remove condensate from compressed air systems. It operates based on demand, activating only when condensate needs to be drained, thus helping to save energy and maintain system performance. On the other hand, BEKOMAT 20 FM is a more advanced version of the BEKOMAT 20 with additional features. The "FM" in BEKOMAT 20 FM stands for "Fully Modular," indicating that this model offers modular components that can be customized to suit specific requirements. This allows for greater flexibility in installation and operation, making it ideal for more complex or specialized applications. In summary, while both BEKOMAT 20 and BEKOMAT 20 FM serve the purpose of condensate drainage in compressed air systems, BEKOMAT 20 FM offers enhanced customization options and flexibility due to its fully modular design.
Downloads
Technical Data BEKOMAT® 20 FM , PDF( Size: 103 MB )BEKOMAT® 20 FM data sheets , PDF( Size: 330 KB )
BEKO condensate drain BEKOMAT® 31U BEKOMAT® with service concept – quick and economic
The innovative design of the BEKOMAT 31U, 32U, 33U and 33U CO series enables simplified handling as well as installation and maintenance with minimum time expenditure. The devices consist of no more than three units joined together with quick-release connectors. The control and sensor units are only installed once, only the service unit (including all wear and pressure parts) needs to be exchanged for maintenance purposes. This robust condensate drain is suitable for both oil-contaminated and oil-free, aggressive condensates.
Technical data of BEKOMAT® 31U
BEKOMAT®
BEKOMAT® 31U
Max. compressor performance [m³/min]
2,5
Max. dryer performance [m³/min]
5
Max. filter performance [m3/min]
25
Voltage
230VAC / 50-60Hz
Operating pressure [bar]
0.8 - 16
Temperature [°C]
+1 bis + 60
Condensate feed
1 x G 1/2
Condensate drain
DN 8-10 bzw. G 1/4i
Dimenstions B x T x H [mm]
65 x 164 x 118
Weight [kg]
ca. 0,8
The BEKOMAT 31U has a wide range of applications in various industries where compressed air systems are used. Some of the key applications include: Automotive Industry: In automotive manufacturing and repair facilities, the BEKOMAT 31U is used to remove condensate and oil from compressed air systems to ensure the quality of the air used in painting booths, pneumatic tools, and other critical applications. Food and Beverage Industry: The BEKOMAT 31U is essential in food and beverage processing plants to maintain clean and dry compressed air for packaging, bottling, and other production processes where air quality is crucial to prevent contamination. Pharmaceutical Industry: In pharmaceutical manufacturing facilities, the BEKOMAT 31U helps ensure that the compressed air used in production and packaging meets stringent quality standards to prevent any risk of contamination in sensitive pharmaceutical products. Manufacturing Industry: The BEKOMAT 31U is widely used in manufacturing plants for various applications such as operating pneumatic machinery, controlling production processes, and maintaining the quality of compressed air for equipment reliability and efficiency. Overall, the BEKOMAT 31U plays a critical role in maintaining the performance and longevity of compressed air systems across different industries by efficiently removing condensate and oil to prevent contamination and protect downstream components.
Downloads
Technical Data BEKOMAT 31U , PDF( Size: 189 KB )
Catalog BEKOMAT 31U , PDF( Size: 368 KB )
Adsorption Dryer DRYBERG® AD35
Versatile installation options for flexible use.
The Adsorption Dryer DRYBERG® AD 10 - 110 is compatible with a wide range of installation layouts and conditions thanks to the multiport. By simply twisting the multiport manifold, the inlet and outlet connections can be adjusted for the air flow. The preloaded desiccant means that the Adsorption Dryer DRYBERG® AD can be installed both horizontally and vertically, so that a total of 20 different installation options are available. Utilising multi-voltage means that the Adsorption Dryer DRYBERG® AD 10 - 110 can be connected directly to any conventional power supply, making it perfectly equipped for worldwide use.
Technical Data of Adsorption Dryer
Capacity* [m3/m]
0,58
Capacity* [m3/h]
35
Connection [inch]
3/8"
Dimensions (AxBxCxD) [mm]
872x767x463x419
Weight [kg]
36
Inlet volume flow v [m3/h]
40
Operating pressure [bar]
6
Inlet temperature [°C]
40
Calculated at 1 bar (abs.) and 20°C at 7 bar g operating pressure and 35°C compressed air inlet temperature (saturated condition)
Operating pressure (bar g)
4
5
6
7
8
9
10
11
12
13
14
15
16
Inlet
Temp.(°C)
35
0,6
0,7
0,8
1
1,1
1,2
1,3
1,5
1,5
1,6
1,6
1,7
1,7
40
0,5
0,6
0,7
0,8
0,9
1,1
1,2
1,3
1,4
1,5
1,6
1,7
1,7
45
0,4
0,5
0,5
0,6
0,7
0,8
0,9
1
1
1,1
1,2
1,3
1,4
50
0,3
0,4
0,4
0,5
0,6
0,6
0,7
0,8
0,9
0,9
1
1,1
1,1
Downloads
Operating Manual of Adsorption dryer DRYBERG® AD 10-110, PDF( Size: 4.4 MB )
Operating Manual of EVERMATIC 20 Controller, PDF( Size: 2.7 MB )
Adsorption Dryer DRYBERG® AD50
What does a compressed air dryer do?
The compressed air dryer, which is installed between the compressor and the receiver, collects and removes condense, water and oil. Also, the dryers cool the compressed air coming out of the compressors. The output is dry compressed air that can be used in pneumatic equipment without causing damage.
Technical Data of Adsorption Dryer
Capacity* [m3/m]
0,83
Capacity* [m3/h]
50
Connection [inch]
3/8"
Dimensions (AxBxCxD) [mm]
972x867x463x419
Weight [kg]
40
Inlet volume flow v [m3/h]
40
Operating pressure [bar]
6
Inlet temperature [°C]
40
Calculated at 1 bar (abs.) and 20°C at 7 bar g operating pressure and 35°C compressed air inlet temperature (saturated condition)
Operating pressure (bar g)
4
5
6
7
8
9
10
11
12
13
14
15
16
Inlet
Temp.(°C)
35
0,6
0,7
0,8
1
1,1
1,2
1,3
1,5
1,5
1,6
1,6
1,7
1,7
40
0,5
0,6
0,7
0,8
0,9
1,1
1,2
1,3
1,4
1,5
1,6
1,7
1,7
45
0,4
0,5
0,5
0,6
0,7
0,8
0,9
1
1
1,1
1,2
1,3
1,4
50
0,3
0,4
0,4
0,5
0,6
0,6
0,7
0,8
0,9
0,9
1
1,1
1,1
Downloads
Operating Manual of Adsorption dryer DRYBERG® AD 10-110, PDF( Size: 4.4 MB )
Operating Manual of EVERMATIC 20 Controller, PDF( Size: 2.7 MB )
BEKO condensate drain BEKOMAT® 32U Comfortable and simplified maintenance
A service indicator informs punctually about the upcoming maintenance and/or exchange for the service unit. All parts which are subject to wear or are pressurised can be reached with one manual movement. Neither electrical installations nor the installation of seals and individual parts are necessary. The installation concept is also particularly user-friendly and time-saving: The device only has to be connected once electrically. The robust housing is also waterproof according to IP67. BEKOMAT® 31U | 32U facilitates the connection to the compressed air system with an angle adaptor.
If the service unit of the BEKOMAT® 33U is disconnected from the power supply and condensate receiver tank, then the supply tank always remains connected to the compressed air system. This saves time and effort during maintenance.
Technical data of BEKOMAT® 32U
BEKOMAT®
BEKOMAT® 32U
Max. compressor performance [m³/min]
5
Max. dryer performance [m³/min]
10
Max. filter performance [m3/min]
50
Voltage
230VAC / 50-60Hz
Operating pressure [bar]
0.8 - 16
Temperature [°C]
+1 bis + 60
Condensate feed
1 x G 1/2
Condensate drain
DN 8-10 bzw. G 1/4i
Dimenstions B x T x H [mm]
74 x 179 x 130
Weight [kg]
ca. 1,0
Proper use of BEKOMAT® 32U
• The BEKOMAT® 32U is an electronically level-controlled condensate drain for compressed-air plants.
• The device is employed within the permissible performance parameters (see "Technical data").
• The BEKOMAT® 32U is able to drain condensate under operating pressure from the plant components virtually without compressed-air loss.
• For its function, the BEKOMAT® 32U requires a supply voltage and an operating pressure (see "Technical data").
• As far as the employment in plants with increased demands on compressed air is concerned (food industry, medical technology, laboratory equipment, special processes etc.), the operator must decide on measures for the monitoring of the compressed-air quality. These have an effect on the safety of the subsequent processes and may prevent damage to persons and plants.
• It is the task of the operator to ensure that the indicated conditions are met during the entire operating time.
Exclusion from the scope of application BEKOMAT® 32U
• The BEKOMAT® 32U as a condensate drain alone cannot guarantee a defined compressed-air quality, for this purpose, other additional technical devices are required.
• BEKOMAT® 32U is not suitable for use in plants carrying vacuum or atmospheric ambient pressure or in ex-areas.
• The BEKOMAT® 32U must not be exposed to permanent direct solar or thermal radiation.
• The BEKOMAT® 32U must not be installed and operated in areas with an aggressive atmosphere.
• The BEKOMAT® 32U is not heatable and, therefore, not suitable for the use in areas where frost is likely to occur.
• The BEKOMAT® 32U is not suitable for CO2 plants.
Downloads
Technical Data BEKOMAT® 32U PDF( Size: 186 KB )
Catalog BEKOMAT® 32U , PDF( Size: 368 KB )
BEKO condensate drain BEKOMAT® 33U Remove condensate from compressed air systems
The BEKOMAT 31U, BEKOMAT 32U, and BEKOMAT 33U are all condensate drain units designed to remove condensate from compressed air systems.
Technical data of BEKOMAT® 33U
BEKOMAT®
BEKOMAT® 33U
Max. compressor performance [m³/min]
10
Max. dryer performance [m³/min]
20
Max. filter performance [m3/min]
100
Voltage
230VAC / 50-60Hz
Operating pressure [bar]
0.8 - 16
Temperature [°C]
+1 to + 60
Condensate feed
3 x G 1/2
Condensate drain
DN 13 bzw. G 1/2i
Dimensions B x T x H [mm]
73 x 203 x 157
Weight [kg]
ca. 1,7
The main differences between BEKOMAT 31U, BEKOMAT 32U, and BEKOMAT 33U lie in their capacity, features, and functionality. BEKOMAT 31U: - The BEKOMAT 31U is a compact condensate drain unit suitable for smaller compressed air systems. - It has a lower condensate removal capacity compared to the BEKOMAT 32U and BEKOMAT 33U. - The BEKOMAT 31U is designed for applications where a lower condensate flow rate is expected. BEKOMAT 32U: - The BEKOMAT 32U is a mid-range condensate drain unit with a higher capacity than the BEKOMAT 31U. - It is suitable for medium-sized compressed air systems with moderate condensate generation. - The BEKOMAT 32U offers more advanced features compared to the BEKOMAT 31U, such as adjustable discharge intervals and drain times. BEKOMAT 33U: - The BEKOMAT 33U is a high-capacity condensate drain unit designed for larger compressed air systems with high condensate generation. - It has the highest condensate removal capacity among the three models. - The BEKOMAT 33U offers advanced features and customization options to meet the specific requirements of large-scale applications.
In summary, the BEKOMAT 31U, BEKOMAT 32U, and BEKOMAT 33U differ in terms of capacity, features, and suitability for different compressed air system sizes. Users can choose the model that best fits their system's requirements based on condensate generation, system size, and desired functionality.
Can we use BEKOMAT 33u instead of BEKOMAT 31u or BEKOMAT 32u in some cases, and vice versa?
Yes, in some cases, you can use BEKOMAT 33u instead of BEKOMAT 31u or BEKOMAT 32u and vice versa, but it should be noted that these substitutions may depend on the following factors: Drain capacity: BEKOMAT 33u has a higher drain capacity compared to BEKOMAT 31u and BEKOMAT 32u. Therefore, if your compressed air system produces a large volume of condensate, using BEKOMAT 33u may be more suitable. System size: Choosing the appropriate model should be based on the size of your compressed air system. If your system is small, BEKOMAT 31u may be sufficient. However, if the system is larger, BEKOMAT 33u could be the best option. Features and settings: BEKOMAT 31u, BEKOMAT 32u, and BEKOMAT 33u have different features and settings. Therefore, if you need specific features, make sure the chosen model provides these features. In general, you can use BEKOMAT 33u instead of BEKOMAT 31u or BEKOMAT 32u and vice versa if needed, but consider the mentioned factors to ensure proper compatibility and optimal performance.
Downloads
Technical Data BEKOMAT 33U, Instructions for installation and operation, PDF( Size: 1 MB )
Catalog BEKOMAT 33U , PDF( Size: 368 KB )
BEKO condensate drain BEKOMAT® 12, 12CO, 12CO PN63Cost-effective and reliable: BEKOMAT® standard units
The BEKOMAT® range provides the 12, 13, 14 and BEKOMAT® 16 standard units for virtually every application, which are not just the correct solution, rather more also the most suitable low-energy solution. The integrated capacitive sensor for volume-controlled condensate discharge helps save energy and enhances efficiency – which is what you would expect from BEKOMAT.
Technical Data BEKOMAT® 12, 12CO, 12CO PN63
BEKOMAT®
12
12 CO
12 CO PN63
Max. compressor capacity
8 m3/min
Max. refrigeration dryer
performance
16 m3/min
Max. filter performance
80 m3/min
Min./max. operating pressure
0,8 ... 16 bar (g)
1,2 ... 63 bar (g)
Housing
Aluminium
Aluminium, hard-coated
Ambient temperature
+1 °C … +60 °C
Weight (empty)
0,8 kg
0,9 kg
Condensate inlet
1 x G½ (inside) [optional: NPT thread]
Condensate discharge
1 x G⅜ (outside); hose connector, hose Ø = 10-13 mm (inside)
Operating voltage
230 / 200 / 115 / 100 / 24 VAC ± 10%, 50 ... 60 Hz / 24 VDC ± 10%
Power consumption
P < 8,0 VA (W)
Protection class
IP 65
Wire cross-section
(mains connection)
recommended 3 x 0.75 … 1.5 mm2 (AWG 16 ... 18)
Protection
recommended for AC: 1 A slow / mandatory for DC: 1 A slow
Contact load
max. AC 250 V, DC 30 V / 1A; min. DC 5V / 10 mA
Condensate
oil-contaminated condensate
oil-contaminated condensate; oil-free, potentially
aggressive condensate
The BEKOMAT 12 is a standard condensate drain unit designed for a wide range of applications in compressed air systems. It is known for its energy-efficient operation and reliable performance in removing condensate from compressed air systems to ensure clean and dry air for various industrial processes. Here are some key specifications and features of the BEKOMAT 12: Energy Efficiency: The BEKOMAT 12 is equipped with an integrated capacitive sensor for volume-controlled condensate discharge, which helps save energy by ensuring that only the necessary amount of condensate is discharged. This feature enhances efficiency and reduces energy consumption compared to traditional drain systems. Robust Construction: The BEKOMAT 12 is built with high-quality materials and components to withstand harsh operating conditions in industrial environments. Its durable construction ensures long-term reliability and performance in demanding applications. Easy Installation and Maintenance: The BEKOMAT 12 is designed for easy installation and maintenance, making it convenient for users to set up and operate the unit with minimal effort. Routine maintenance tasks such as draining condensate and cleaning the unit can be performed quickly and easily. Wide Application Range: The BEKOMAT 12 is suitable for a variety of applications in industries such as automotive, food and beverage, pharmaceutical, manufacturing, and more. It can effectively remove condensate from compressed air systems to maintain air quality and prevent damage to downstream equipment.
Overall, the BEKOMAT 12 is a reliable and energy-efficient condensate drain unit that offers superior performance and efficiency for a wide range of industrial applications. Its advanced features and robust construction make it an ideal choice for ensuring the quality and reliability of compressed air systems in various industries.
Downloads
Technical Data BEKOMAT® 12, 12CO, 12CO PN63 , PDF( Size: 94 KB )
Catalog BEKOMAT® 12, 12CO, 12CO PN63, PDF( Size: 430 KB )
Adsorption Dryer DRYBERG® AD90
The compact cold regenerating dryers for maximum flexibility
For volume flow rates of 10 – 110 m³/h, the cold-regenerated dryer DRYBERG® AD 10 - 110 guarantees a stable supply of topquality compressed air through the use of premium desiccant. The desiccant is filled into cartridges and removes moisture from the compressed air up to a pressure dew point of -40 °C. An integrated after-filter safely holds back any desiccant abrasion residue. This dryer therefore ensures smooth and efficient production processes.
Technical Data of Adsorption Dryer
Capacity* [m3/m]
1,50
Capacity* [m3/h]
90
Connection [inch]
1/2"
Dimensions (AxBxCxD) [mm]
1119x1000x536x442
Weight [kg]
65
Inlet volume flow v [m3/h]
40
Operating pressure [bar]
6
Inlet temperature [°C]
40
Calculated at 1 bar (abs.) and 20°C at 7 bar g operating pressure and 35°C compressed air inlet temperature (saturated condition)
Operating pressure (bar g)
4
5
6
7
8
9
10
11
12
13
14
15
16
Inlet
Temp.(°C)
35
0,6
0,7
0,8
1
1,1
1,2
1,3
1,5
1,5
1,6
1,6
1,7
1,7
40
0,5
0,6
0,7
0,8
0,9
1,1
1,2
1,3
1,4
1,5
1,6
1,7
1,7
45
0,4
0,5
0,5
0,6
0,7
0,8
0,9
1
1
1,1
1,2
1,3
1,4
50
0,3
0,4
0,4
0,5
0,6
0,6
0,7
0,8
0,9
0,9
1
1,1
1,1
Downloads
Operating Manual of Adsorption dryer DRYBERG® AD 10-110, PDF( Size: 4.4 MB )
Operating Manual of EVERMATIC 20 Controller, PDF( Size: 2.7 MB )
Oxygen Generator OXYBERG® 1100
Purity
90%
93%
94%
95%
O2 Nm3/h
13.6
12.7
11.8
11.4
Comp. air Nm3/h
149.6
139.7
129.8
125.4
Technical Data of Oxygen Generator OXYBERG® 1100
Oxygen Generator
OXYBERG® 1100
Part No.
1020101100
Capacity (95%)
11.4 Nm3/h
Capacity (93%)
12.7 Nm3/h
Dimensions
780 x 1330 x 2290 LxWxH (mm)
Design pressure
11 bar
Operating pressure
7 bar
Net weight
930 kg
Noise level
55 max 85 dB (A)
Ambient temperature
+5 to +40 °C
Electrical connection
230V 50Hz 110V 60 Hz
Power consumption
150 W
Safety class
54 IP
Inlet Filtration **
0.01 micron
Inlet filtration ** (Active carbon filter)
0.003 micron
Outlet Filtration **
3 to 5 micron
Temperature *
25 ° C
Above Sea Level *
0 m
Pressure *
1.0133 bar
Humidity *
70%
* Consult us for performance under other specific conditions
** Optional
Why is on-site gas essential for hospital oxygen generators?
With oxygen generators, hospitals and medical centers can easily produce and use the oxygen they need without risk and certainly at the lowest cost.
Since easy access to oxygen is a very important issue in the medical environment, careful planning of oxygen storage by oxygen generators can completely eliminate the need for oxygen cylinders.
With OXYBERG devices, you can treat your patients without having to worry about the oxygen supply.
OXYBERG has the highest build quality and significantly reduces your overall costs by continuously producing oxygen.
By OXYBERG®️ we supply pure, self-generated oxygen, the desired stocking density and sufficient feed uptake of the animals can be guaranteed in fish farming and shrimp farming.
Downloads
Technical Data Oxygen Generator OXYBERG® 1100, PDF( Size: 90 KB )
BEKO condensate drain BEKOMAT® 13, 13CO, 13 CO PN 50
how can you prevent condensate damage to your compressed air system whilst saving energy and adapted to the amount of condensate without loss of compressed air These are the proven strength of a bekomat but exactly how does it work Adapted to the amount of condensate and without compressed air loss Condensate flows in via the feed line whilst air pressure from the vent pipe keeps the membrane closed from above a capacitive sensor constantly monitors the condensate. When the condensate reaches a preset level the control unit immediately initiates the draining of the condensate. Once again as the condensate flows in the membrane remains closed due to system pressure it's larger upper surface provides the necessary closing force on the valve seat and seals it tightly when the bekomat is full the solenoid valve is activated and the space above the membrane is vented. Simultaneously the pressure on the underside increases allowing the condensate to flow into the outlet line. in actual operation the solenoid valve switches so quickly that no valuable compressed air escapes. The bekomat® drains the condensate into the owamat Oil water separator mounted downstream adapted to the amount of condensate and without compressed air loss.
Cost-effective and reliable: BEKOMAT® standard units
The standard design is made in corrosion-resistant aluminium, which makes the BEKOMAT® particularly reliable and robust. A silver-coloured coating protects the outside of the housing. The BEKOMAT® CO models are predestined for operating with oil-free or aggressive condensates. Their housing is additionally, completely glass bead blasted and protected by a high-quality hard coating.
Technical Data BEKOMAT® 13, 13CO, 13CO PN50
BEKOMAT®
13
13 CO
13 CO PN50
Max. compressor capacity
35 m3/min
Max. refrigeration dryer
performance
70 m3/min
Max. filter performance
350 m3/min
Min./max. operating pressure
0,8 ... 16 bar (g)
1.2 ... 25 or 40 bar
or 50 bar (gauge)
Housing
Aluminium
Aluminium, hard-coated
Ambient temperature
+1 °C … +60 °C
Weight (empty)
2 kg
2,2 kg
Condensate inlet
2 x G½ (inside) [optional: NPT thread]
Condensate discharge
1 x G½ (outside); hose connector, hose Ø = 13 mm (inside)
1 x G⅜ (inside); hose
connector, hose Ø = 13
mm (inside)
Operating voltage
230 / 200 / 115 / 100 / 24 VAC ± 10%, 50 ... 60 Hz / 24 VDC ± 10%
Power consumption
P < 8,0 VA (W)
Protection class
IP 65
Wire cross-section
(mains connection)
recommended 3 x 0.75 … 1.5 mm2 (AWG 16 ... 18)
Protection
recommended for AC: 1 A slow / mandatory for DC: 1 A slow
Contact load
max. AC 250 V, DC 30 V / 1A; min. DC 5V / 10 mA
Condensate
oil-contaminated condensate
oil-contaminated condensate; oil-free, potentially
aggressive condensate
Measures:
• Do not exceed the maximum operating pressure (see type plate)!
• Only carry out service measures when the system is pressure less.
• Use pressure-resistant installation material only.
• The feed pipe must be tubed firmly. Discharge pipe: short, fixed pressure hose onto pressure-resistant pipe.
• Make sure that persons or objects cannot be hit by condensate or escaping compressed air.
Downloads
Technical Data BEKOMAT® 13, 13CO, 13 CO PN 50 , PDF( Size: 1.5 MB )
Catalog BEKOMAT® 13, 13CO, 13 CO PN 50 , PDF( Size: 430 KB )
BEKO condensate drain BEKOMAT® 14, 14CO, 14CO PN25
Cost-effective and reliable: BEKOMAT ® standard units
The BEKOMAT® range provides the 12, 13, 14 and BEKOMAT 16 standard units for virtually every application, which are not just the correct solution, rather more also the most suitable low-energy solution. The integrated capacitive sensor for volume-controlled condensate discharge helps save energy and enhances efficiency – which is what you would expect from BEKOMAT.
Unnecessary costs and damage in the compressed air generation can only be efficiently prevented with volume-controlled condensate discharge. For this reason, BEKOMAT condensate drain therefore functions with a capacitive sensor. The intelligent electronics prevent compressed air losses and minimise energy consumption. Due to this the electronically regulated condensate discharge, the drain often amortises itself within half a year compared to devices with time-controlled drain valves.
Technical Data BEKOMAT® 14, 14CO, 14CO PN25
BEKOMAT®
14
14 CO
14 CO PN25
Max. compressor capacity
150 m3/min
Max. refrigeration dryer
performance
300 m3/min
Max. filter performance
1500 m3/min
Min./max. operating pressure
0,8 ... 16 bar (g)
1.2 ... 25 bar (gauge)
Housing
Aluminium
Aluminium, hard-coated
Ambient temperature
+1 °C … +60 °C
Weight (empty)
2.9 kg
3.1 kg
Condensate inlet
3 x G¾ (inside) [optional: NPT thread]
Condensate discharge
1 x G½ (outside); hose connector, hose Ø = 13 mm (inside)
1 x G⅜ (inside); hose
connector, hose Ø = 13
mm (inside)
Operating voltage
230 / 200 / 115 / 100 / 24 VAC ± 10%, 50 ... 60 Hz / 24 VDC ± 10%
Power consumption
P < 8,0 VA (W)
Protection class
IP 65
Wire cross-section
(mains connection)
recommended 3 x 0.75 … 1.5 mm2 (AWG 16 ... 18)
Protection
recommended for AC: 1 A slow / mandatory for DC: 1 A slow
Contact load
max. AC 250 V, DC 30 V / 1A; min. DC 5V / 10 mA
Condensate
oil-contaminated condensate
oil-contaminated condensate; oil-free, potentially
aggressive condensate
Proper use
• The BEKOMAT® is an electronically level-controlled condensate drain for compressed-air plants.
• It is employed within the permissible operating parameters (see "Technical data").
• The BEKOMAT® is able to drain condensate under operating pressure from the plant components virtually without compressed-air losses.
• For its function, the BEKOMAT® 14 requires an operating voltage and an operating pressure (see "Technical data").
• As far as the employment in plants with increased demands on the compressed-air quality is concerned (food industry, medical technology, laboratory equipment, special processes etc.), the operator must decide on measures for the monitoring of the compressed-air quality. These have an effect on the safety of the subsequent processes and may prevent damage to persons and plants.
• It is the task of the operator to ensure that the indicated conditions are met during the entire operating time.
• For the employment in CO2 plants, a BEKOMAT® with a CO specification (BEKOMAT® ... CO) must be used.
• The BEKOMAT® and the condensate supply line need to be protected against frost, as otherwise the function cannot be guaranteed. BEKO TECHNOLOGIES GMBH also offers suitable products for this purpose.
Downloads
Technical Data BEKOMAT® 14, 14CO, 14CO PN25 , PDF( Size: 1.5 MB )
Catalog BEKOMAT® 14, 14CO, 14CO PN25 , PDF( Size: 430 KB )
Alternative MANN FILTER - Oil filter WD 950
Product Description
Filter type
Hydraulics
GTIN code
4011558850500
Dimensions (mm) AxBxCxGxHxUGV
93x62x71x1-12 UNFx172x2.50
ADVANTAGES
Tried and tested in operation
Robust design
Efficient separation and high dirt holding capacity at low pressure drop
Undetachable seals
Oil water separator OWAMAT® 10 - QWIK-PURE CS200 , 2.4m3/min
The clean solution that fits your budget and protects the environment: Condensate processing with OWAMAT ®
Legislators demand that discharged condensate is processed safely and properly. BEKO make it easy for operators to meet the legal requirements – with our extensive range of condensate processing solutions that reflect our commitment to sustainability. With our Oil water separator OWAMAT ® oil water separator reaction splitting plants, we offer cost-effective and environmentally friendly solutions for the disposal of dispersed and emulsified condensates. These systems are designed to be environmentally friendly. They are cost-efficient on-site units for the processing of condensate in compliance with all applicable statutory regulations.
Function of OWAMAT®
For the processing, the oil-containing condensate first flows under pressure into the pressure relief chamber. Here, the pressure is reduced without causing turbulence in the downstream separating tank for the separation of free oils. Any entrained coarse dirt particles are retained in a removable receiver. In the separating tank, the oil settles on the surface as a result of gravity separation and is led into the spillproof oil receiver.
Technical Data of Oil water separator OWAMAT® 10
Oil water separator OWAMAT
OWAMAT® 10
max. compressor performance:
2.4 m3/min
Container volume:
10 l
Capacity:
4.3 l
Pre lter:
2.5 l
Main lter:
2.6 l
Condensate inlet (hose size):
2 x G1⁄2 inside (Ø inside = 10 mm)
Water (hose size):
1 x G1⁄2 inside (Ø inside = 10 mm)
Weight (empty):
3.5 kg
Min./max. temperature
+5 ... +60 °C
Max. operating pressure at inlet
16 bar
Maintenance of ÖWAMAT®
Weekly wastewater test
– Fill the test glass at the Sampling cock.
– Compare the cloudiness with the reference jar
If the sample is clearer than the
reference cloudiness
– the filter is O.K. (Fig. 1)
If the sample is cloudier than the
reference cloudiness
– the filter needs to be changed! (Fig. 2)
Never pour any foreign liquid into the
pressure relief chamber! This can impair
the filter efficiency of the ÖWAMAT®.
Before any maintenance– Shut off condensate inlet (1) if necessary switch off compressor
Maintenance– Hoses and hose connections must be
inspected regularly (2)
Downloads
Technical Data of Oil water separator OWAMAT® 10 , PDF( Size: 747 KB )
Catalog Oil water separator , PDF( Size: 309 KB )
Oil water separator OWAMAT® 11 - QWIK-PURE CS200, 4.9m3/min
Safe and efficient condensate separation: OWAMAT®
OWAMAT has been a tried and tested oil-water separation system for dispersed condensates for decades. It has been awarded a building regulation´s approval for the versions with and without free oil separation, for synthetic or mineral oils as well as for processing condensate generated by piston- and screw compressors, therefore not requiring any legislation for water protection approval.
Function of oil water separator OWAMAT® 10,11
The oil-contaminated condensate can be fed under pressure to the OWAMAT® unit (1).
The pressure is reduced in the pressure relief chamber (2).
The condensate flows steadily into the subjacent filter stage without turbulence and runs through the two-stage OEKOSORB® replacement filter.
The OEKOSORB® replacement filter (3) comprises a prefilter and a main filter for binding any residual oil constituents.
The water flows out of the OWAMAT® oil-water separator through the water outlet (6) and can be discharged directly into the sewer system.
A sampling valve (5) is provided so that the wastewater quality can be checked at any time.
1 Condensate inlet
2 Pressure relief chamber
3 Prefilter/main filter
4 Riser
5 Sampling valve
6 Water outlet
Technical Data of Oil water separator OWAMAT® 11
Oil water separator OWAMAT®
OWAMAT® 11
max.compressor performance:
4.9 m3/min
Container volume:
18.6 l
Capacity:
11.7 l
Pre lter:
4.7 l
Main lter:
4.8 l
Condensate inlet (hose size):
2 x G1⁄2 inside (Ø inside = 10 mm)
Water (hose size):
1 x G1⁄2 inside (Ø inside = 10 mm)
Weight (empty):
5.75 kg
Min./max. temperature
+5 ... +60 °C
Max. operating pressure at inlet
16 bar
Downloads
Technical Data of Oil water separator OWAMAT® 10,11 , PDF( Size: 747 KB )
Catalog Oil water separator , PDF( Size: 309 KB )
the QWIK-PURE ® opens up new possibilities
Classic oil-water separators based on the principle of gravity separation can hardly be improved in terms of process technology.
So, as condensate technology experts with decades of experience, we have paid special attention to the people who work
with the product. What is important to them, what drives them and how can we give them the highest degree of decision-making
reliability and flexibility while integrating the requirements of modern industry? As a result, we present the QWIK-PURE®, the
first active oil-water separator with which we have fundamentally redefined condensate treatment and will change it worldwide.
Technical Data QWIK-PURE® 10, Oil water separator
Operating mode
static*
Maximum condensate flow
12 l/h
Condensate inlet connection
3 x G1/2", outside | 1 x G1", outside | Hose nozzle
Condensate drain connection
1 x 23 mm (0.91 in), outside, Hose nozzle
Media
Compressor condensate, oily
Maximum oil concentration at condensate drain
20mg/l
Maximum operating pressure at condensate inlet
16 bar(g)
Minimum / maximum operating temperature, Fluids and environment
+5 … +50 °C
Relative humidity of the environment
≤10 … 80 %, Without condensation
Weight
21 Kg
Number of replacement cartridges
1
Qwik-Pure is a real innovation among oil-water separators. The highly effective oil-water separation process has been perfected with new technology and innovative concepts.Downloads
QWIK-PURE® Catalog, PDF( Size: 3.8 MB )
QWIK-PURE®10 Original installation and operation manual, PDF( Size: 9 MB )
QWIK-PURE ® Ergonomic operation protects operators
The absorbed oils are bound in the hermetically sealed cartridges. This reliably protects the operators from contamination and complies with the limit values for the discharged waste water - regardless of the
compressor type and the oils used. All versions use the same cartridge with transparent operation. The Qwik-Pure system status is displayed at all times and is clearly visible on the control panel. A green LED bar shows the remaining capacity from 100% to zero. When a cartridge change is required, the display changes from green to red and the guided changing process can be started manually. Therefore, residual condensate is automatically pushed out of the cartridge's pipe system with several small bursts of air. Integrated bottom valves prevent condensate from escaping from the cartridge. The tightly closed cartridge can be easily removed and replaced with a maximum total weight of 25kg. The saturated cartridge is easy and convenient to transport.
Technical Data QWIK-PURE® 15, Oil water separator
Operating mode
active
Maximum condensate flow
19 l/h
Condensate inlet connection
3 x G1/2", outside | 1 x G1", outside | Hose nozzle
Condensate drain connection
1 x 23 mm (0.91 in), outside, Hose nozzle
Media
Compressor condensate, oily
Maximum oil concentration at condensate drain
20mg/l
Maximum operating pressure at condensate inlet
16 bar(g)
Minimum / maximum operating temperature, Fluids and environment
+5 … +50 °C
Relative humidity of the environment
≤10 … 80 %, Without condensation
Weight
24 Kg
Number of replacement cartridges
1
Technical data of the control unit FRC
Minimum / maximum operating pressure, compressed air
3 … 15 bar(g)
Cleanliness class, compressed air
2:4:2
Connection, compressed air
8 mm (0.31 in), outside, Hose nozzle
Operating voltage
90 … 264 VAC / 24 VDC
Frequency range
50 … 60 Hz
Power consumption
10 VA
Protection class
IP54
Downloads
QWIK-PURE® Catalog, PDF( Size: 3.8 MB )QWIK-PURE®15-90 Original installation and operation manual, PDF( Size: 16 MB )
QWIK-PURE ® Unique process, functional and future-proof
Due to the innovative mode of operation, a maximum
of process and functional reliability is achieved. The
integrated control system permanently displays the
remaining capacity and thus ensures transparency and
plannability. It also guides you through the quick and
easy cartridge change and helps with service tasks via
a local WLAN network. And if the power should fail,
the fail-safe function ensures safe operation. In this
case, the QWIK-PURE® behaves like a conventional
gravity separator.
Qwik-Pure stands for optimal operational safety for conventional oil-water separators. This is ensured by the unique and intelligent operating principle and reliable monitoring by the device's electronic unit.
Technical Data QWIK-PURE® 30, Oil water separator
Operating mode
active
Maximum condensate flow
38 l/h
Condensate inlet connection
3 x G1/2", outside | 1 x G1", outside | Hose nozzle
Condensate drain connection
1 x 23 mm (0.91 in), outside, Hose nozzle
Media
Compressor condensate, oily
Maximum oil concentration at condensate drain
20mg/l
Maximum operating pressure at condensate inlet
16 bar(g)
Minimum / maximum operating temperature, Fluids and environment
+5 … +50 °C
Relative humidity of the environment
≤10 … 80 %, Without condensation
Weight
31 Kg
Number of replacement cartridges
2
Technical data of the control unit FRC
Minimum / maximum operating pressure, compressed air
3 … 15 bar(g)
Cleanliness class, compressed air
2:4:2
Connection, compressed air
8 mm (0.31 in), outside, Hose nozzle
Operating voltage
90 … 264 VAC / 24 VDC
Frequency range
50 … 60 Hz
Power consumption
10 VA
Protection class
IP54
Downloads
QWIK-PURE® Catalog, PDF( Size: 3.8 MB )QWIK-PURE®15-90 Original installation and operation manual, PDF( Size: 16 MB )
QWIK-PURE ® Extremely flexible and future-proof
The integrated Modbus interface enables integration
into higher-level monitoring and control systems and
provides additional future-proofing thanks to its IIOT
capability.
A modular concept allows the number of cartridges to be flexibly adjusted to individual requirements, with up to 6 cartridges per system. This ensures optimal condensate treatment for all applications, with a quick change time of under 10 minutes, supported by the optimized guided service flow for clean cartridge changes.
Technical Data QWIK-PURE® 60, Oil water separator
Operating mode
active
Maximum condensate flow
76 l/h
Condensate inlet connection
3 x G1/2", outside | 1 x G1", outside | Hose nozzle
Condensate drain connection
1 x 23 mm (0.91 in), outside, Hose nozzle
Media
Compressor condensate, oily
Maximum oil concentration at condensate drain
20mg/l
Maximum operating pressure at condensate inlet
16 bar(g)
Minimum / maximum operating temperature, Fluids and environment
+5 … +50 °C
Relative humidity of the environment
≤10 … 80 %, Without condensation
Weight
45 Kg
Number of replacement cartridges
4
Technical data of the control unit FRC
Minimum / maximum operating pressure, compressed air
3 … 15 bar(g)
Cleanliness class, compressed air
2:4:2
Connection, compressed air
8 mm (0.31 in), outside, Hose nozzle
Operating voltage
90 … 264 VAC / 24 VDC
Frequency range
50 … 60 Hz
Power consumption
10 VA
Protection class
IP54
Downloads
QWIK-PURE® Catalog, PDF( Size: 3.8 MB )QWIK-PURE®15-90 Original installation and operation manual, PDF( Size: 16 MB )
Net €2,812.50
€3,346.88*
€3,718.75*(10% saved)
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