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.
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.
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.
02-661 NTron Oxygen sensor, SenzTx-100 (0-1000ppm) O2 Oxygen sensor03-907 Inmatec Oxygen sensor alternatively, SenzTx-100 (0-1000ppm) O2The minimum output range of 0 to 10 ppm is ideal for nitrogen generation or glove box
monitoring. The SenzTx transmitter can also be supplied with measuring ranges up to 0 to 96% O2 for oxygen concentrators.
The flexibility is further enhanced by process connection multiple output options.
Sensor construction The main body of the sensor is fabricated
from high density PVDF. The supporting ring
at the face of the sensor is constructed of
stainless steel. This results in an oxygen
sensor that is chemically resistant to most
sampling atmospheres and can be used with
trace solvents and hydrocarbons present in
the sample gas, unlike zirconia (due to the
high temperature of the sensor). Installation flexibility The compact SenzTx oxygen transmitter
with its inbuilt microprocessor, is designed
for OEM applications with minimal use input.
With the flow through sensor with orifice
option, the sensor can handle up to 0.5 bar
g and provide the correct flow through the
sensor. This eliminates the need for external
flow control.
To achieve better result and longer life time with the Senz-TX oxygen sensor, you can follow these steps: Regular Calibration: Ensure that the Senz-TX oxygen sensor is calibrated when it is delivered with a calibration. This will help in monitoring the oxygen levels in N2 product effectively. Monitoring and Maintenance: Use the sensor to continuously monitor the oxygen levels in the Nitrogen product. Regularly check for any abnormalities or fluctuations in measuring levels and if needed renew the sensor (for zerconia sensor need every 3-5)Adjust correctly the N2 sample pressure and flow: we need maximum 0.3bar N2 with very low flow of N2 from your product tank to measure the purity of N2 product, Training and Education: Provide training to operators and maintenance personnel on how to use the Senz-TX oxygen sensor effectively. Educate them on best practices for maintaining compressed air quality and using the sensor to monitor oxygen levels.
By following these steps, you can ensure better result and longer life time with the Senz-TX oxygen sensor, leading to improved your N2 quality and your better performance of your PSA N2 generators operation.
02-662 NTron Oxygen sensor, SenzTx-101 (0-25%) O2
03-908 Inmatec oxygen sensor alternatively, SenzTx-101 (0-25%) O2
The zirconia sensor offers fast response time and long service life with virtually no drift,
whilst the electrochemical sensor allows measurement in background gases containing
hydrocarbons.
Proven sensor technology With a choice of either zirconia or
electrochemical sensor technology the SenzTx offers reliability, accuracy and flexibility. Both technologies have a broad
measurement capability allowing the user to measure from selected ranges from 1ppm to 100% oxygen. Zirconia sensor The Ntron zirconia oxygen sensor is a nondepleting zirconia solid electrolyte sensor.
A small capillary on the sensor controls the diffusion of oxygen into the sensor.
When heated to over 400°C oxygen is electronically reduced causing current flow through the zirconia electrolyte. Zirconiumoxide allows the movement of oxygen ions through the substrate from a high to a low concentration. The measurement of oxygen is determined by the current flowing through the electrodes. The zirconia sensor
has an unlimited shelf life without the loss of calibration and has an expected life of three to five years. The zirconia sensor is not position sensitive and has low cross sensitivity to other gases and does not dry out.
Monitoring oxygen levels via oxygen sensors
The Senz-TX oxygen sensors are designed to monitor oxygen levels in various applications, including compressed air systems. By accurately measuring oxygen levels, the Senz-TX sensor can help ensure that the compressed air quality meets the desired standards.
When using Senz-TX sensors for compressed air quality testing, it is important to consider the following factors: Accuracy: The Senz-TX sensor should be calibrated regularly to ensure accurate readings of oxygen levels in the compressed air. This will help in detecting any deviations from the desired oxygen concentration and maintaining the quality of the compressed air. Monitoring: The Senz-TX sensor can be used to continuously monitor oxygen levels in the compressed air system. By tracking changes in oxygen concentration over time, operators can identify any issues that may affect the quality of the compressed air. Maintenance: Regular maintenance of the Senz-TX sensor is essential to ensure its proper functioning. This includes cleaning the sensor, replacing any worn-out parts, and calibrating it as needed. Integration: The Senz-TX sensor can be integrated into a larger monitoring system for comprehensive monitoring of compressed air quality. By connecting the sensor to a control system, operators can receive real-time data on oxygen levels and take immediate action if any deviations are detected.
Overall, the Senz-TX sensors can be effective tools for monitoring and maintaining compressed air quality. By following best practices for sensor usage and maintenance, operators can ensure that their compressed air systems meet the required quality standards.
02-663 NTron Oxygen sensor, SenzTx-102 (0-96%) O2
03-909 Inmatec oxygen sensor alternatively, SenzTx-102 (0-96%) O2
The SenzTx is a compact and robust O2 transmitter that utilises zirconia or electrochemical
technology to give a reliable measurement of oxygen concentration.
ApplicationsGas generation (oxygen / nitrogen)Additive manufacturingGlove box purge and leak detectionIndustrial gas applications
FeaturesZirconia or electrochemical sensor technology optionsMeasurement range: 0 to 10ppm up to 0 to 100% O2Analogue output: 4 to 20mAModbus 48524VDC power supplyM12 electrical connectionProcess connection: KF40 Flange or Flowthrough baseCombined Sensor & Electronics allows for ease of integration.Fast response from ambient air to low PPM oxygen measurement
Senz-TX oxygen sensors for measuring oxygen levels in various applications
Using Senz-TX oxygen sensors can be considered part of a PSA Gas generator. These sensors are specifically designed to measure oxygen levels in various applications, including compressed air systems. By incorporating Senz-TX sensors into a monitoring system, operators can track and analyze oxygen concentrations in the oxygen PSA generators to ensure that it meets the required quality standards.
When integrated into a oxygen generator, Senz-TX sensors can provide real-time data on oxygen levels, allowing operators to detect any deviations from the desired concentration. This information can help identify potential issues with the compressed air system, such as leaks or contamination, and take corrective actions promptly.
In addition to monitoring oxygen levels, a comprehensive air separation monitoring system may also include other sensors and devices to measure parameters like pressure, temperature and humidity levels. By combining multiple sensors and monitoring tools, operators can gain a more complete understanding of the overall quality and performance of their compressed air system.
Overall, using Senz-TX oxygen sensors as part of an oxygen monitoring system can help ensure that the oxygen PSA generator meets the necessary quality standards and operates efficiently and reliably.
ZEO 13X
Items
Value
1.2 - 2 mm
Beads Size Range
nominal, mm
approx. mesh size
1.2 – 2.0
10 x 16
Bulk Density
compacted, g/l
655 - 700
Attrition (% wt.)
wt.-%
max. 0.2
Crush Strength
N/bead
min. 10
Moisture Content
as delivered, wt.-%
max. 1.0
Water Adsorption Capacity*
55 % rel. hum.,
20 °C, wt.-%
min. 26.5
CO2 Adsorption Capacity*
at 2.4 mbar CO2 pressure at 25 °C
cm3 (STP) / g
min. 24.0
Regeneration:Regeneration of molecular sieve 13X may be carried out by increasing the temperature and/or reducing the
pressure or using a suitable purge gas, resp. The regeneration mode to be used, however, always depends on the
particular conditions of the application case. Especially the possibly limited stability of a certain molecular sieve
against thermal and hydrothermal exposure needs be taken into consideration. In the case of doubt please contact
our technical service staff. Standard packaging:650kg, net weight Big Bag with inliner 135kg, net weight steel drum
Carbon Molecular Sieves CMS 260: Improving Gas separation and nitrogen extraction in industries
Diameter 1,3 mm / Diameter 1,5 mm / Diameter 1,8 mm
Specifications
Unit
Description
Shape
zylindrisch
Color
schwarz
Particle size
mm
1,3 ±0,2 / 1,5 ±0,2 / 1.8 ±0,2
Loss on drying
wt.-%
1.0 max.
Bulk Density
g/ml
0.64 - 0.66
Hardness
wt.-%
98.0 min
Our BERG GaseTech CMS 260 is a type of carbon molecular sieve (CMS) widely used in the pressure swing adsorption (PSA) process for gas separation. In this high-pressure separation method, our CMS 260 effectively segregates gas molecules according to their size and polarity. It excels particularly in extracting nitrogen from air, delivering high-purity nitrogen with purities ranging from 97% to 99.995%. These unique properties make CMS 260 an excellent choice for industries requiring precise gas separation and purification.Carbon molecular sieves (CMS) are a type of adsorbent material that is used for
gas separation/ Nitrogen Extraction
. They are particularly effective for separating nitrogen from other gases, such as oxygen and carbon dioxide. CMS works by selectively adsorbing certain gases while allowing others to pass through, making it useful for applications such as nitrogen extraction. In the process of nitrogen extraction, CMS can be used to separate nitrogen from air or other gas mixtures, producing a high-purity nitrogen stream. This is often used in industrial applications such as food packaging, electronics manufacturing, and chemical processing. The use of CMS for gas separation and nitrogen extraction offers several advantages, including high selectivity, low energy consumption, and the ability to produce high-purity gases. This makes it a popular choice for various industrial and commercial applications where gas separation and purification are required.Standard packaging:137 kg, net weight plastic drum 40 kg, net weight plastic drum (1.3mm) 20 kg, net weight plastic drumm
Mogas93, The complete medical solution for measuring purity of O2, CO2, CO and dewpoint
Medical gas analyser
The MoGas is a wall mounted
medical gas purity analyzer and
is designed for use in medical
oxygen generation systems for
checking the purity of the
oxygen produced.
It measures oxygen, carbon
dioxide and carbon monoxide
concentrations for the
monitoring of an oxygen
generating system.
Applications
A monitoring and analyzing unit for use in: Validation of medical oxygen generators Product purity on oxygen generators
and compressed air systems Pharmaceutical Bottling/filling plant applications
Features Measurement Ranges:
Zirconia O2 Sensor: 0-96% O2
Infrared CO2 Sensor: 0-1000ppm
Electrochemical CO Sensor: 0-50ppm
Optional Paramagnetic Sensor 0-100%
Optional moisture transmitter available Measures up to four parameters
simultaneously Large backlit LCD display of gas
concentration Optional built-in audible and visual
alarms Programmable O2, CO and CO2 alarms
output
• Output - 4-20mA per channel.
One common fault relay.
Net €2,088.00
€2,484.72*
€3,451.00*(28% saved)
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