OXYBERG® 1200 Oxygen Generator

€32,490.00

Net

€38,663.10*

Product number: 1020101200
Manufacturer: BERG GaseTech GmbH
Stock: 0
Product information "OXYBERG® 1200 Oxygen Generator "
Oxygen Generator OXYBERG® 1200
 
Purity 90% 93% 94% 95%
O2 Nm3/h 15.7 14.2 13.6 12.9
Comp. air Nm3/h 146.7 146.5 143.0 141.9

Revolutionizing Food Production: The Impact of PSA Oxygen Generators

Here are some key points related to the food industry and industrial oxygen generators:
  • Food Packaging: Oxygen concentrators are crucial in modified atmosphere packaging (MAP) systems used in the food industry. These systems help extend the shelf life of perishable food products by adjusting the gas composition inside packaging to reduce oxygen levels and inhibit microbial growth. 
  • Food Storage: Oxygen compressors are used in controlled atmosphere storage facilities for fruits, vegetables, and grains. By regulating oxygen levels, these generators help maintain product freshness and prevent spoilage during storage and transportation. 
  • Food Processing: O2 generators play a role in various food processing applications, such as water treatment, wastewater treatment, and sterilization processes. They ensure the availability of oxygen for aerobic processes and help maintain hygiene standards in food production facilities. 
  • Aquaculture: Oxygen machine are essential in aquaculture systems for providing supplemental oxygen to fish tanks and ponds. They help maintain optimal oxygen levels for fish health and growth, ensuring higher yields and better quality seafood products. 
  • Beverage Production: Oxygen making machines are used in breweries and wineries during fermentation processes. They provide oxygen for yeast growth and metabolism, contributing to the production of alcoholic beverages with desired flavor profiles. 
  • Meat and Poultry Processing: Oxygen producing machines are utilized in meat and poultry processing plants for various purposes, including packaging, chilling, and freezing. They help maintain product quality and safety by controlling oxygen levels in storage and processing environments. 
  • Bakery and Confectionery: PSA Oxygen plants are employed in baking and confectionery industries to improve product consistency and texture. They facilitate controlled oxidation reactions during dough fermentation and baking processes, resulting in better-quality bakery products.
Overall, oxygen units play a vital role in enhancing efficiency, quality, and safety across different segments of the food industry, contributing to the production of fresher, safer, and more sustainable food products.

How can an oxygen production plant be used in the food industry?

By using oxygen, we can have higher food quality. In other words, oxygen has a protective role in food. It prevents the growth of anaerobic microorganisms in packaged food. As a result, it makes the food last longer.
Oxygen manufacturing plants are really important in the food industry. They give a steady supply of oxygen for different uses that make food better, fresher, and last longer. One great thing about using oxygen in food packaging is that it helps stop bacteria and fungi from growing. These can spoil food and make people sick.
Using oxygen-rich gas in food packages instead of regular air helps oxygen generators keep food fresh for longer.
In food packaging, oxygen generators often remove air from packaging before sealing. In modified atmosphere packaging (MAP), the air inside is switched with a mix of gases, like oxygen, to keep food fresh and high-quality. Oxygen helps protect food by slowing down the process that makes it go bad and lose its nutrients.
Additionally, oxygen plants PSA are used in food processing facilities :
  • to support various operations, such as oxygenation of water for washing fruits and vegetables 
  • enhancing fermentation processes in food production 
  • improving the efficiency of certain food processing techniques
Oxygen-enriched water can help remove contaminants and prolong the shelf life of fresh produce by reducing microbial growth and maintaining product quality.
Also, compressed oxygen are used in storage places where the oxygen levels are controlled to keep fruits, veggies, and other perishable stuff fresh for longer. By controlling how much oxygen is in these places, food makers can make their products last longer and reduce food waste.
In summary, oxygen generators are really important in the food industry. They help keep food fresh, make it last longer on shelves, and ensure it's safe to eat. By using oxygen in food processing and packaging, food makers can give customers top-quality products, cut waste, and make sure the food stays good from when it's made to when it's eaten.
Advantages of Oxygen Generators in the Food Industry
  1. Extended Shelf Life: Oxygen generators help preserve food freshness, allowing products to remain viable for longer periods. 
  2. Enhanced Safety: By maintaining optimal oxygen levels, oxygen generators inhibit microbial growth, reducing the risk of foodborne illnesses. 
  3. Reduced Waste: Oxygen-controlled environments minimize spoilage, leading to less wasted food throughout the supply chain. 
  4. Improved Product Quality: Oxygen generators contribute to the production of high-quality food items, meeting consumer expectations and enhancing brand reputation. 
  5. Cost Efficiency: By prolonging shelf life and minimizing waste, oxygen generators provide cost-effective solutions for food producers.
Technical data "OXYBERG® 1200 Oxygen Generator "
Oxygen Generator  OXYBERG® 1200
Part No.  1020101200
Capacity (95%) 12.9 Nm3/h
Capacity (93%) 14.2 Nm3/h
Dimensions  820x1530x2380 LxWxH (mm) 
Design pressure  11 bar 
Operating pressure  7 bar 
Net weight  1030 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
Downloads "OXYBERG® 1200 Oxygen Generator "
TDS "OXYBERG® 1200 Oxygen Generator "

Accessories

Mogas93, the complete medical solution
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 €2,900.00 €3,451.00*

All articles in this group

OXYBERG® 2000 Oxygen Generator
Oxygen Generator OXYBERG® 2000   Purity 90% 93% 94% 95% O2 Nm3/h 129.6 123.4 120.7 117.4 Comp. air Nm3/h 1,425.6 1,357.4 1,327.7 1,291.4 Buying oxygen generators Oxygen plant PSA can supply oxygen for:generators and improve the performance of oxygen concentrators to hospitals, medical oxygen concentrators, mobile oxygen, replacing medical oxygen cylinder, medical oxygen machine in factories such as paper factories, textile factories, urban sewage treatment, packaging, and drinking wateroxygen making machine in food and dairy products animal husbandry industries, including poultry, dry fruit, and flour factories Buying an oxygen generator is the best way for on-site oxygen production in industries. Oxygen unit systems are designed to provide the necessary flow, pressure, and purity for use, making them the top choice for oxygen consumption. Optimizing Gold and Silver Extraction with O2 Generators Oxygen is essential for extracting silver and gold efficiently, especially in methods like pressure oxidation and cyanidation. Let's delve deeper into how oxygen, especially when generated using advanced technologies like OXYBERG® Oxygen generator machine, enhances these processes: Pressure Oxidation: In pressure oxidation, oxygen reacts with sulfide ores, like refractory gold ores, at high temperatures and pressures. This process converts sulfide minerals into soluble metal sulfates, facilitating the subsequent extraction of gold and silver. Using oxygen ensures better and more complete oxidation of sulfide minerals, boosting metal recovery rates and enhancing overall process efficiency. Cyanidation: Cyanidation is a common method for getting gold and silver from ores by soaking them in a cyanide solution. Adding oxygen to this solution speeds up the process, making gold and silver dissolve from the ore faster. This results in faster leaching kinetics, shorter processing times, and higher metal recovery yields. Additionally, oxygen facilitates the regeneration of cyanide ions, allowing for the reuse of cyanide in subsequent leaching cycles, thereby reducing cyanide consumption and associated costs. Increased Recovery and Throughput: By improving the efficiency of pressure oxidation and cyanidation processes, adding oxygen significantly increases the recovery of gold and silver from ores. Higher recovery rates translate to increased metal output per ton of ore processed, thereby enhancing overall productivity and profitability of mining operations. Furthermore, using oxygen lets mining companies process more ore in less time. Cost Reduction: Adding oxygen offers cost-saving benefits in mining and mineral processing operations. you can increase oxygen plant cost by choosing right PSA oxygen plant. By boosting metal recovery rates, oxygen helps get more value out of every ton of ore processed, making mining projects more economically viable. Furthermore, oxygen-assisted cyanidation reduces the consumption of cyanide reagents, leading to cost savings and minimizing the generation of cyanide-containing waste products. Using oxygen producing machine is crucial for improving silver and gold extraction in mining and processing. Adding oxygen boosts recovery rates, cuts processing costs, and lessens environmental impacts, making mining operations in the precious metals industry more sustainable and efficient.

Net €149,800.00 €178,262.00*
OXYBERG® 1900 Oxygen Generator
Oxygen Generator OXYBERG® 1900   Purity 90% 93% 94% 95% O2 Nm3/h 105.4 97.8 93.8 91.4 Comp. air Nm3/h 1,159.4 1,075.8 1,031.8 1,005.4   Is it reasonable to use gas oxygen cylinder today? Despite their low purity and transportation challenges, low-purity O2 cylinders are still in use and effective. However, Oxygen compressors offer numerous advantages, such as cost savings and reduced risks of accidents. This has led to a notable shift in many countries towards replacing industrial oxygen generator machines with cylinders. Certainly, the transition from cylinder O2 to oxygen making machine represents a significant advancement in healthcare infrastructure, offering numerous advantages over traditional methods. The advantages of using oxygen manufacturing machine in comparison to portable oxygen cylinder:Cost-Effectiveness: Oxygen production plant eliminate the need for purchasing and transporting oxygen tanks, thereby reducing operational costs associated with procurement, storage, and logistics. Over time, this cost-saving benefit becomes substantial, especially for healthcare facilities with high oxygen demand. Safety and Risk Mitigation: Oxygen capsules pose inherent risks, including the potential for explosion during transportation or storage due to their pressurized nature. Oxygen generators work without pressurized containers, making them safer for healthcare workers and reducing the risk of accidents. Consistent Oxygen Supply: Oxygen units provide a continuous and reliable source of medical-grade oxygen, eliminating the variability in purity and availability often associated with oxygen capsules. This consistency ensures optimal patient care and therapy delivery, particularly in critical care settings where uninterrupted oxygen supply is crucial. Environmental Sustainability: By reducing the reliance on disposable oxygen capsules and minimizing carbon emissions associated with transportation, oxygen generators contribute to environmental sustainability. They align with global efforts to reduce carbon footprints and promote eco-friendly practices within healthcare systems. Operational Efficiency: Oxygen generators offer greater flexibility and efficiency in oxygen production, allowing healthcare facilities to adjust production levels according to patient demand. This on-demand production capability minimizes waste and optimizes resource utilization, enhancing overall operational efficiency. Regulatory Compliance: Modern oxygen concentrators adhere to stringent regulatory standards for medical gas purity and quality, ensuring compliance with healthcare regulations and standards. This regulatory compliance instills confidence in the reliability and safety of oxygen plant PSA for medical use. Long-Term Reliability: Oxygen generators are designed for long-term reliability, minimizing the need for maintenance and replacement compared to oxygen cylinder. This reliability translates to consistent oxygen supply without interruptions, supporting continuous patient care and treatment. Overall, the advantages of using oxygen manufacturing plant over oxygen capsules are compelling, encompassing cost-effectiveness, safety, reliability, and environmental sustainability. As healthcare systems worldwide recognize these benefits, the transition to oxygen generators continues to gain momentum, heralding a transformative shift in oxygen supply management within medical facilities. In summary, oxygen manufacturing plants have clear benefits over oxygen capsules, including cost savings, safety, reliability, and environmental friendliness. As healthcare systems globally acknowledge these advantages, more facilities are making the switch to oxygen generators, marking a significant change in how oxygen is supplied in medical settings. Environmental Benefits of Transitioning from o2 cylinder to Generators Transitioning from oxygen capsules to oxygen generators can positively impact the environment in several ways: Reduced Carbon Emissions: Oxygen generators cut down on the need for transporting oxygen capsules, reducing the carbon emissions associated with transportation. Energy Efficiency: PSA Oxygen plants save energy because they use less power than making and delivering oxygen capsules. Resource Conservation: Oxygen producing machine use fewer resources like metal for capsule containers and energy for manufacturing processes, conserving natural resources. Waste Reduction: PSA Oxygen generators produce, reducing the need for disposable capsules and minimizing waste sent to landfills. Preservation of Ecosystems: By minimizing the ecological footprint of transportation and manufacturing processes, oxygen generators help protect natural ecosystems and biodiversity. Using oxygen generators instead of capsules supports a more sustainable healthcare system by reducing emissions, conserving resources, minimizing waste, and protecting ecosystems. Is it more advantageous to opt for oxygen generators rather than portable oxygen cylinders for household use? Yes, it can be preferable to use oxygen generators over portable oxygen cylinders for household purposes. Oxygen generators offer several advantages such as:continuous oxygen supply without the need for frequent refills cost-effectiveness in the long run safety benefits like reduced risk of accidents associated with handling and transporting oxygen cylindersmore convenient and reliable for everyday use at home

Net €124,700.00 €148,393.00*
OXYBERG® 1800 Oxygen Generator
Oxygen Generator OXYBERG® 1800   Purity 90% 93% 94% 95% O2 Nm3/h 89.1 82.2 79.7 77.1 Comp. air Nm3/h 980.1 904.2 876.7 848.1   Here are some advantages of industrial oxygen generators for medical applications: Reliable Oxygen Supply: Oxygen compressors ensure a continuous and reliable source of medical-grade oxygen, eliminating the dependency on external suppliers and the risk of supply shortages. On-Demand Production: O2 generators produce oxygen as needed, allowing healthcare facilities to adjust production according to patient demand, thus minimizing waste and optimizing resource utilization. Cost-Effectiveness: By producing oxygen on-site, hospitals can significantly reduce operational costs associated with purchasing, storing, and transporting compressed medical oxygen cylinders or liquid oxygen, leading to long-term cost savings. Also you can manage your oxygen plant cost by choosing the right medical oxygen supplier. Convenience and Accessibility: PSA oxygen plant provide convenient access to oxygen within medical facilities, eliminating the need for manual handling of heavy cylinders and streamlining the oxygen delivery process for healthcare providers. Customizable Oxygen Concentrations: Advanced oxygen making machine allow for precise control of oxygen concentrations, ensuring optimal therapy for patients with varying respiratory needs while minimizing the risk of oxygen toxicity. Emergency Preparedness: Oxygen generators equipped with backup systems ensure uninterrupted oxygen supply, even during power outages or other emergencies, thereby enhancing the resilience of healthcare infrastructure. Environmental Sustainability: By reducing the reliance on traditional oxygen delivery methods, such as cylinder transportation, oxygen generators contribute to environmental sustainability by minimizing carbon emissions and energy consumption associated with transportation logistics. Regulatory Compliance: Modern oxygen producing machine adhere to stringent regulatory standards for medical gas purity and quality, ensuring compliance with healthcare regulations and maintaining patient safety. Versatility: medical Oxygen generators can be deployed invarious medical settings including hospitals clinics ambulatory care centers emergency medical services catering to diverse healthcare needs across different care settings Improved Patient Outcomes Stable and top-notch oxygen supply from oxygen units is key for respiratory therapy, anesthesia delivery, and critical care. This support leads to better patient outcomes and faster recovery. The benefits of medical oxygen machines in healthcare highlight their importance in improving patient care, enhancing healthcare delivery, and making medical facilities more efficient.

Net €97,400.00 €115,906.00*
OXYBERG® 1700 Oxygen Generator
Oxygen Generator OXYBERG® 1700   Purity 90% 93% 94% 95% O2 Nm3/h 64.7 61.6 60.3 58.8 Comp. air Nm3/h 711.7 677.6 663.3 646.8   A wide range of uses of industrial oxygen generators A wide range of industries, including food processing and manufacturing, now rely on the quality oxygen produced by the new generation of oxygen units. However, it's in the realm of healthcare that their significance is most pronounced. In medical settings, oxygen making machine play a pivotal role in ensuring the delivery of high-quality oxygen for various therapeutic and life-supporting applications. Hospitals, clinics, and emergency medical services depend on medical oxygen generator to provide a consistent and readily available oxygen supply for patient care. In special care units, like intensive care and for newborns, giving patients extra oxygen is really important for those who have trouble breathing or are having surgery. PSA oxygen plant supply the precise oxygen concentrations required for respiratory support, ensuring optimal oxygenation levels and promoting patient recovery. Furthermore, medical oxygen machines are indispensable for emergency situations, where immediate access to supplemental oxygen can be a matter of life and death. Paramedics and emergency medical technicians use portable oxygen generators to give oxygen therapy to patients having trouble breathing or having heart issues. Moreover, oxygen generators are integral to various medical procedures, including anesthesia delivery during surgeries and diagnostic testing in pulmonary function laboratories. Their ability to produce medical-grade oxygen on-site reduces the need for reliance on external oxygen suppliers, enhancing operational efficiency and cost-effectiveness in healthcare facilities. Oxygen production plants are really important in medical settings because they help with patient care and emergency situations. Using oxygen compressor in hospitals will continue to be crucial for providing the best healthcare and outcomes for patients. What factors influence the oxygen plant cost for medical oxygen concentrators? The cost of oxygen plants for medical oxygen producing machine depends on various factors, including: Capacity: The size and output capacity of the oxygen plant affect its cost. Larger capacity plants typically cost more. Technology: Different technologies, such as Pressure Swing Adsorption (PSA) or membrane technology, have different costs associated with them. Features: Additional features like automation, remote monitoring capabilities, and backup systems can increase the cost of the oxygen plant. Installation: Installation costs, including labor, equipment setup, and any necessary modifications to the facility, contribute to the overall cost. Maintenance: Consideration of ongoing maintenance and service costs is essential for determining the total cost of ownership. Supplier: The reputation of the medical oxygen supplier and the reliability of the supplier can influence the cost. Well-established brands with a track record of quality may have higher prices. Understanding these factors can help estimate the cost of medical PSA oxygen generator machine and plan accordingly. what's the advantages of replacing medical oxygen cylinder or the same o2 cylinder replacement with oxygen plant PSA? Replacing medical oxygen cylinders with oxygen plant PSA systems offers several advantages. Firstly, it provides a cost-efficient solution by eliminating the recurring expenses associated with oxygen refills and the need to search for "fill oxygen tank near me" services. With an oxygen plant PSA, healthcare facilities can benefit from a continuous and on-demand oxygen supply, ensuring uninterrupted access to medical-grade oxygen. This convenience also translates into reduced carbon emissions, as there is no need for transporting oxygen cylinders. Moreover, hospitals gain independence from external suppliers and logistical constraints, allowing for greater control over their oxygen supply and operations. Furthermore, the safety measures in oxygen manufacturing plant guarantee reliable delivery of medical-grade oxygen, offering reassurance to healthcare providers and patients. Advantages of Medical Oxygen Generators: Reliable Oxygen Supply Cost-effectiveness Operational Efficiency Independence Enhanced Patient Care

Net €77,800.00 €92,582.00*
OXYBERG® 1600 Oxygen Generator
Oxygen Generator OXYBERG® 1600   Purity 90% 93% 94% 95% O2 Nm3/h 53.4 49.3 47.4 46.2 Comp. air Nm3/h 587.4 542.3 521.4 508.2   The special oxygen Pressure Swing Adsorption (PSA) technology offers solutions and procedures in the area of oxygen production for hospitals and pharmaceuticals. Industrial Oxygen generators for medical applications PSA (Pressure Swing Adsorption) technology is great at separating gases. When used to make oxygen, it ensures a steady and dependable oxygen source. In environments where oxygen is crucial, such as hospitals and pharmaceutical facilities, having a dependable oxygen production plant is paramount. Our specialization in oxygen production using PSA technology suggests that it likely offers features or optimizations specifically tailored to meet the stringent requirements of these sectors. For hospitals, uninterrupted access to high-quality oxygen can mean the difference between life and death for patients, especially those in critical care units or undergoing surgeries. Similarly, pharmaceutical processes often require precise and reliable oxygen concentrations for various manufacturing processes, making a consistent and pure oxygen supply essential. By leveraging PSA technology, medical oxygen concentrator may provide benefits such as:energy efficiency cost-effectiveness environmental sustainability compared to traditional oxygen production methods Additionally, its focus on the unique needs of hospitals and pharmaceuticals implies that it likely offers tailored solutions and procedures to optimize oxygen production and delivery within these environments. Improvements like PSA oxygen generators show ongoing progress in vital infrastructure technologies. They make sure that important sectors like healthcare and pharmaceuticals can get the resources they need to work safely and well. It's crucial to purchase medical oxygen generators from reputable companies like BERG Kompressoren GmbH, a trusted medical oxygen supplier. Advancing Healthcare Infrastructure: The Role of O2 Generators in Hospitals Using oxygen production in hospitals is essential for modern medical care. Patients need a reliable supply of oxygen for various medical situations. Pressure Swing Adsorption (PSA) systems, like medical oxygen machines, are a big help in ensuring hospitals have enough oxygen for their needs. Hospitals use oxygen a lot for various treatments, like helping patients breathe in intensive care or during surgeries. Oxygen production plan with PSA technology make producing medical-grade oxygen on-site easier, ensuring it's made efficiently and accurately. Oxygen producing machine are great for hospitals because they provide a constant and easy-to-access oxygen supply. This means hospitals don't have to rely on outside suppliers or deal with heavy gas cylinders. Being self-sufficient helps hospitals run smoothly and ensures patients get the oxygen they need, even during emergencies or unexpected situations. Moreover, the deployment of PSA oxygen plant systems engenders notable benefits in terms of cost-effectiveness and environmental sustainability. By obviating the need for recurrent procurement and transportation of oxygen cylinders or oxygen tanks or even medical oxygen cylinder, hospitals stand to realize substantial reductions in expenditure while curbing carbon emissions associated with conventional delivery mechanisms. The tailored design and operational protocols inherent to solutions like our Oxygen compressor underscore a conscientious alignment with the exacting standards of healthcare environments. oxygen making machine are designed to meet strict rules for the purity and consistency of medical gases. they making them reliable and suitable for clinical use. In conclusion, the integration of oxygen units leveraging advanced PSA technology represents a pivotal paradigm shift in hospital oxygen supply management. These systems provide reliable, cost-effective, and environmentally friendly oxygen, becoming a crucial part of modern healthcare. They ensure better patient care and help hospitals stay strong during challenges. Investing in an oxygen manufacturing plant saves hospitals money by cutting recurring costs for oxygen cylinders. The initial expense of setting up the plant, including the oxygen plant cost, is outweighed by long-term savings. Having an oxygen generator machine ensures hospitals always have enough oxygen for patients and emergencies. Overall, these plants help hospitals provide better healthcare while spending less money over time.

Net €64,930.00 €77,266.70*
OXYBERG® 1500 Oxygen Generator
Oxygen Generator OXYBERG® 1500   Purity 90% 93% 94% 95% O2 Nm3/h 44.6 41.1 39.9 38.8 Comp. air Nm3/h 490.6 452.1 438.9 426.8   Highly Oxygen Generators pure up to ultrapure medical oxygen for highest standards in hospital and clinics. The GaseTech medical oxygen generators as OXYBERG®️ could offer from BERG KOMPRESSOREN GmbH with all advantages of fully integrated medical oxygen systems for hospital clinical use and surgeries. The continual measurement and monitoring of all operating values offers the highest possible protection for the whole process. OXYGEN CONSTANTLY AVAILABLE⠀ With an BERG Kompressoren O2 generator, you can continuously produce oxygen or medically certified oxygen with a purity of up to 95% directly onsite by yourself. We grant customers the automatic control, the required quantity of up to 2,000 Nm3/h is provided at any time. Our oxygen generators are available within shortest time and can be connected directly to the existing piping system of a hospital or as a separate back-up system. We are reliable medical oxygen supplier for replacing medical oxygen cylinder. BERG Kompressoren industrial oxygen generators are certified according to European Pharmacopoeia / ISO 13485:2016 / ISO 7396-1: 2016 & Directive 93/42/EEC (CE1250). OXYBERG®️ Medical oxygen concentrator, Self-generation of medical oxygen, produce by BERG made in Germany, according to the standards of the European Pharmacopoeia & Directive 93/42/EEC with oxygen generator machine of BERG Kompressoren! Why is on-site gas essential for hospital oxygen production plant? With oxygen manufacturing plant, 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 PSA oxygen plant devices, you can treat your patients without having to worry about the oxygen supply. Our OXYBERG oxygen compressor has the highest build quality and significantly reduces your overall costs by continuously producing oxygen. Oxygen for patient care and manufacture of Covid19 vaccines: Medical oxygen plays an important role in coping with the corona crisis. It is used worldwide to treat Covid patients and is now also used to manufacture life-saving vaccines. With self-sufficient medical oxygen machine, hospitals and pharmaceutical manufacturers secure the supply and reduce their costs at the same. Medical oxygen is crucial in dealing with the COVID-19 pandemic. It's used globally to help treat patients with the virus and is now essential in making life-saving vaccines. By generating their own oxygen supply, hospitals and pharmaceutical companies can ensure they have enough and also save money. During the pandemic, the demand for medical oxygen skyrocketed as hospitals treated COVID-19 patients struggling to breathe. Oxygen therapy became a vital part of treatment, helping patients get the oxygen they needed to survive. Additionally, as vaccines were developed to combat the virus, oxygen played a key role in their production process. Having their own oxygen units allows hospitals and vaccine manufacturers to be more self-sufficient. They can produce the oxygen they need on-site, ensuring a steady supply without relying on external sources. This independence is crucial during times of high demand or when supply chains are disrupted. On-site PSA oxygen generator is not only reliable but also saves money for healthcare facilities and pharmaceutical companies. Instead of buying oxygen from suppliers at varying prices, they can make their own oxygen for less. This helps them save money that can be used for patient care or developing vaccines. In summary, making oxygen on-site is crucial for treating patients and making vaccines during the COVID-19 pandemic. It guarantees a steady oxygen supply for medical care and vaccine production, saving money on oxygen plant costs and making hospitals and drug companies more self-reliant. ADVANTAGES of Oxygen making machine Easy and Reliable Oxygen Supply Continuous Measurement of the O2 Purity and the Outlet Pressure Low-Maintenance, Compact Design Easy to Use with Touch Control Panel S Options of Oxygen producing machineRedundant Filtration Modular Extension Temperature Sensor Flow Measurement Pressure Dew Point Sensor Inlet Pressure Sensor

Net €52,470.00 €62,439.30*
OXYBERG® 1400 Oxygen Generator
Oxygen Generator OXYBERG® 1400   Purity 90% 93% 94% 95% O2 Nm3/h 32.5 30.2 28.9 27.6 Comp. air Nm3/h 357.5 332.2 317.9 303.6   Onsite Oxygen generators for production optimization Industrial Oxygen generators OXYBERG®️ guarantee oxygen production on site. First standard inlet filtration removes impurities such as moisture, oil vapours, particles and hydrocarbons. In the next step, zeolite, a synthetic crystalline aluminum silicate, adsorbs the nitrogen and carbon dioxide molecules from the previously cleaned compressed air in the two molecular sieve beds. The free oxygen molecules flow into the production tank. In order to ensure a constant oxygen flow, the two sieves alternate between adsorption mode and regeneration mode. The oxygen produced this way can now be used in a wide variety of application. Optimizing Oxygen Production with oxygen units On-Site for Diverse Applications onsite PSA oxygen generators offer a reliable solution for producing oxygen directly at the point of use. The system begins by effectively filtering out impurities like moisture, oil vapors, particles, and hydrocarbons through standard inlet filtration. Following this, zeolite, a synthetic crystalline aluminum silicate, selectively adsorbs nitrogen and carbon dioxide molecules from the purified compressed air in the molecular sieve beds, allowing only pure oxygen molecules to pass through into the production tank. To maintain a steady oxygen flow, the molecular sieves switch between adsorption and regeneration modes. This ensures a consistent and high-purity oxygen output for various applications. Whether it's in glass manufacturing or other industries, the oxygen generated by our oxygen production plants can be seamlessly integrated for enhanced efficiency and performance. On-site oxygen manufacturing plant are reliable for making oxygen where it's wanted. They start by cleaning out impurities like moisture, oil vapors, particles, and hydrocarbons using standard filters. Then, zeolite, a special material, gets rid of nitrogen and carbon dioxide molecules from the clean air, leaving only pure oxygen for use. To ensure a steady flow of oxygen, the molecular sieves switch back and forth between adsorption and regeneration modes. This cycle guarantees a consistent and high-purity oxygen output, suitable for a wide range of applications. Whether it's for glass manufacturing or other industries, the oxygen produced by our on-site oxygen production plants can be seamlessly integrated to enhance efficiency and performance. This on-site oxygen producing machine offers several advantages over traditional oxygen supply methods. By producing oxygen directly at the point of use, it eliminates the need for transportation, storage, and handling of bulky oxygen cylinders or tanks. This not only streamlines operations but also reduces costs and minimizes safety risks associated with handling compressed gases. Moreover, on-site oxygen production provides greater flexibility and control over oxygen supply. Users can adjust oxygen production levels based on fluctuating demand, ensuring that they have an adequate supply of oxygen precisely when it's needed. This flexibility is particularly beneficial in industries with varying oxygen requirements, where on-demand oxygen production can optimize resource utilization and minimize waste. In addition to its operational benefits, on-site oxygen generation also contributes to environmental sustainability. By producing oxygen on-site, industries can reduce their carbon footprint associated with transporting oxygen cylinders or tanks, as well as minimize greenhouse gas emissions from traditional oxygen production methods. Overall, on-site oxygen units offer a reliable, efficient, and environmentally friendly solution for meeting diverse oxygen needs across various industries. Whether it's improving combustion processes, enhancing medical treatments, or optimizing industrial operations, on-site oxygen generation plays a vital role in ensuring a steady and reliable oxygen supply for a wide range of applications. With oxygen plants, people can rely on getting oxygen right where they need it, whenever they need it, for all sorts of production jobs. The advantage of using Ntron oxygen sensors for PSA oxygen plantsAccuracy: Ntron oxygen sensors are super accurate at measuring oxygen levels. This means they help our O2 generators control oxygen production with exactness. Reliability: Ntron sensors are tough and dependable, working reliably every time. This keeps OXYBERG® oxygen generator machines running smoothly and efficiently. Longevity: Ntron oxygen sensors stick around for a long time, even in tough industrial places. This helps our oxygen making machines keep going strong for a while. Matching: Ntron sensors are made to fit perfectly with our oxygen concentrators. This means they work together smoothly, making oxygen production super efficient. Calibration: Calibrating and keeping Ntron sensors in shape is a breeze. This makes maintaining our oxygen compressors simple and ensures they make oxygen accurately and reliably, helping us keep production running smoothly. User-friendly control panel Constant quality control is ensured by measuring oxygen purity. All measured values are recorded and saved using our user-friendly control panel. The effectiveness of the proven technology promises savings from the very first minute. Low-maintenance valve technology and compact design are further benefits in addition to the constant availability of pure O2.

Net €45,910.00 €54,632.90*
OXYBERG® 1300 Oxygen Generator
Oxygen Generator OXYBERG® 1300   Purity 90% 93% 94% 95% O2 Nm3/h 23.4 21.1 20.1 19.3 Comp. air Nm3/h 257.4 232.1 221.1 212.3 Oxygen for glass industries Oxygen is an essential component in the glass manufacturing process, where it plays a crucial role in fuel combustion, melting raw materials, and controlling temperature and oxidation reactions. Glass production industries often rely on oxygen to improve energy efficiency, increase production capacity, enhance glass quality, and reduce emissions. Oxygen generators are widely used in glass manufacturing applications to supply high-purity oxygen on-site, eliminating the need for traditional oxygen supply methods like liquid oxygen tanks or oxygen cylinder deliveries. Here are some advantages of using industrial oxygen generators in glass production: Improved Combustion Efficiency: O2 generators give a steady supply of pure oxygen that can be used in burning processes like oxy-fuel burners in glass furnaces. Using oxygen instead of air in burning makes flames hotter, heats things up quicker, and makes fuel use better. This means using less fuel, spending less money, and making more glass in less time. Enhanced Melting Performance: In glass furnaces, oxygen helps turn raw materials into melted glass by helping chemical reactions. Oxygen plants give the oxygen for these reactions, which cleans impurities from melted glass, making it clearer and better. By controlling the oxygen in the furnace, glass makers ensure consistent melting for high-quality glass every time.Increased Production Capacity: Oxygen compressors help glass makers produce more glass by giving a steady supply of oxygen whenever it's needed. Glass producers can adjust how much oxygen they use based on how much glass they're making, making sure their furnaces work just right. This means they can make more glass to meet demand without waiting for oxygen deliveries. Environmental Benefits: Using oxygen machine in glass production can lead to environmental benefits by reducing greenhouse gas emissions and air pollutants. Oxy-fuel combustion with oxygen generators produces cleaner flue gases with lower nitrogen oxide (NOx) emissions compared to air-fuel combustion. By improving combustion efficiency and reducing fuel consumption, glass manufacturers can minimize their carbon footprint and contribute to sustainable manufacturing practices. Cost Savings: Oxygen making machine offer cost-effective solutions for supplying oxygen in glass manufacturing applications. By generating oxygen onsite, glass producers eliminate the need for: • transportation • storage • handling of bulk liquid oxygen • compressed gas cylinders This results in cost savings associated with logistics, rental fees, and maintenance of traditional oxygen supply systems, making oxygen generators a cost-efficient option for glass industry operations. Reliability and Independence: Oxygen producing machines provide glass manufacturers with a steady and independent oxygen source. This means they can keep their operations running smoothly, avoid downtime, and maintain consistent production and quality standards without relying on external suppliers or delivery schedules. OXYBERG® oxygen units bring many benefits to glass production: • improve burning • make melting better • increase production • help the environment • cut costs • give a dependable oxygen supply By using oxygen production plant in their processes, glass makers can make their operations better, improve product quality, and compete better in the glass market worldwide. Oxygen Manufacturing plant: Cutting Carbon in Glass Production Using PSA oxygen plant is a game-changer in the glass industry's quest to reduce embodied carbon. These generators revolutionize the glass production process by optimizing combustion efficiency and enhancing melting performance, all while significantly lowering carbon emissions. By introducing a controlled and reliable source of oxygen into glass furnaces, oxygen generator machines enable glass manufacturers to achieve higher temperatures and faster melting rates with less fuel consumption. In the past, making glass required a lot of fossil fuels like natural gas or coal to heat up the materials. This used a ton of energy and made a lot of carbon dioxide. But now, with oxygen generators, burning fuel is cleaner and works better. The trick is in how we burn stuff. With oxygen generators, we swap regular air for pure oxygen when burning, making the burn more complete and controlled. This means hotter flames and less fuel used. So, we make less carbon dioxide per unit of glass, helping to cut down on embodied carbon. Moreover, the integration of oxygen concentrators in glass production aligns with sustainability goals and environmental regulations. As industries worldwide strive to reduce their carbon footprint and mitigate climate change, the adoption of oxygen generators presents a practical and effective solution for the glass industry to minimize its environmental impact while maintaining operational efficiency. In summary, using oxygen plant PSA is a great way for the glass industry to cut down on its carbon footprint. By making combustion more efficient, improving melting, and reducing carbon emissions, oxygen generators help make glass production more eco-friendly.

Net €37,620.00 €44,767.80*
Top
OXYBERG® 1100 Oxygen Generator
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 Oxygen generators for fish farming PSA Oxygen generators for fish farming are devices used to provide supplemental oxygen to the water in fish tanks or ponds. In aquaculture systems, maintaining adequate oxygen levels is crucial for the health and growth of the fish. Oxygen generators work by using a process called electrolysis to separate water molecules into oxygen and hydrogen gas. The oxygen made by these devices goes into the water, giving fish more oxygen to breathe. This is really important, especially in crowded fish farms where there might not be enough oxygen in the water. Using an oxygen compressor in fish farming can keep fish happier and healthier, leading to fewer deaths and better growth. It also allows farmers to maintain optimal oxygen levels without relying solely on aeration systems or natural oxygen sources. Overall, O2 generators play a vital role in modern fish farming practices by ensuring that fish have access to sufficient oxygen levels, promoting their health and well-being. How oxygen generators help in fish farming and aquaculture applications? Oxygen generator machines are really important in fish farming and aquaculture. They add extra oxygen to the water, which fish need to stay healthy and grow well. Here are some ways in which oxygen generators help in fish farming and aquaculture: Improved Oxygen Levels: Oxygen producing machines keep the right amount of oxygen in fish tanks or ponds, especially in crowded fish farms. Fish need enough oxygen to breathe, grow, and stay healthy. Prevention of Oxygen Depletion: In packed fish tanks or ponds, oxygen can run out because there are too many fish, the water's warm, or there's too much waste. An PSA oxygen plant keeps this from happening by always adding oxygen to the water. Reduced Stress and Mortality: Insufficient oxygen levels can lead to fish stress, reduced immune function, and increased susceptibility to diseases. By ensuring adequate oxygen supply, oxygen unit help reduce stress levels and mortality rates in fish populations. Better Growth and Productivity: When fish have enough oxygen, they're healthier and more active, which helps them grow faster and be more productive. Oxygen manufacturing plant contribute to creating optimal conditions for fish growth and development. Flexibility and Control: Oxygen production plant provide farmers with greater control over oxygen levels in their aquaculture systems. They offer a flexible and reliable way to adjust oxygen supply based on changing environmental conditions or fish requirements. Cost-Effective Solution: Using oxygen making machines can save money compared to other ways of adding oxygen to water or depending on natural sources of oxygen. They are energy-efficient and can help optimize resource utilization in fish farming operations. In summary, industrial oxygen generators are really important in fish farming. They make sure fish have enough oxygen to stay healthy. By promoting optimal water quality and supporting fish health, oxygen generators contribute to the success and sustainability of aquaculture operations. How important is an adequate oxygen concentration in the water to ensure successful fish farming? Having enough oxygen in the water is super important for fish farming to go smoothly. Fish need oxygen to live, grow, and stay healthy, just like we need air to breathe. If there isn't enough oxygen in the water, fish can feel stressed, grow slower, get sick more often, and even die. Here are some key reasons why maintaining an adequate oxygen concentration is important in fish farming: Respiration: Fish require oxygen to carry out cellular respiration, which is the process by which they convert nutrients into energy. Without enough oxygen in the water, fish may struggle to breathe and experience respiratory distress, leading to negative impacts on their health and growth. Metabolism: Oxygen is essential for supporting the metabolic processes of fish, including digestion, growth, and reproduction. Adequate oxygen levels help fish maintain their metabolic functions and energy production, allowing them to grow and develop properly. Water Quality: Oxygen plays a critical role in maintaining water quality in aquaculture systems. High oxygen levels help prevent the accumulation of harmful gases like carbon dioxide and ammonia, which can be toxic to fish at elevated concentrations. Proper oxygenation of the water helps create a healthy aquatic environment for fish to thrive. Stress Reduction: Fish are sensitive to changes in their environment, including fluctuations in oxygen levels. Low oxygen concentrations can induce stress responses in fish, making them more susceptible to diseases and compromising their immune systems. By ensuring adequate oxygenation, fish farmers can reduce stress levels in their fish populations and promote overall well-being. Production Efficiency: Optimal oxygen levels support efficient feed conversion and nutrient utilization in fish, leading to improved growth rates and feed efficiency. By providing adequate oxygen supply, fish farmers can maximize the productivity and profitability of their aquaculture operations. To maintain proper oxygen levels in fish farming systems, aquaculturists often use aeration equipment, such as aerators and oxygen generators, to increase the oxygen content in the water. Monitoring dissolved oxygen levels regularly and adjusting aeration rates accordingly is essential for ensuring a healthy and sustainable environment for farmed fish. By prioritizing oxygen management in aquaculture practices, fish farmers can enhance the welfare of their fish stocks, minimize risks of oxygen-related issues, and optimize production outcomes in the aquaculture industry.

Net €22,380.00 €26,632.20*
OXYBERG® 1000 Oxygen Generator
Oxygen Generator OXYBERG® 1000 Purity 90% 93% 94% 95% O2 Nm3/h 10.6 9.1 8.5 8.1 Comp. air Nm3/h 116.6 100.1 93.5 89.1 What is hyperbaric oxygen therapy? Hyperbaric oxygen therapy (HBOT) is a medical treatment where you breathe in pure oxygen in a pressurized room. The extra pressure helps your lungs take in more oxygen, which travels through your blood to help your body heal and fight infections. HBOT is used to treat many health problems like decompression sickness, slow-healing wounds, carbon monoxide poisoning, and infections. It can also help with things like diabetic foot sores, radiation injuries, and some brain problems. Hyperbaric oxygen chamber price The cost of hyperbaric oxygen chamber for home or even portable hyperbaric oxygen chamber depends on many factors such as:size of the chamber specific features additional equipment included Get in touch with us for "best hyperbaric oxygen therapy for sale" options available. We're here to help you find the perfect fit for your needs. we calculate the hyperbaric oxygen chamber cost exactly according to requirements. How onsite industrial oxygen generators help hyperbaric and beauty? Onsite o2 generators can be beneficial for both hyperbaric therapy and beauty treatments. Here's how they can help: Hyperbaric Therapy: On-site PSA oxygen plants make sure there's always enough pure oxygen for hyperbaric oxygen therapy (HBOT). With an oxygen unit in your workplace, there is no need to depend on external sources for oxygen. It also eliminates the need for o2 tank or o2 cylinder. So the hyperbaric chamber can always work smoothly. This can lead to improved treatment outcomes and patient safety. Beauty Treatments: Oxygen facials are a trendy beauty treatment that makes your skin look better and boosts collagen. Having an onsite oxygen plant is an easy and cheap way to make the oxygen needed for these treatments. With pure oxygen from the plant, beauty experts can make sure their clients get great results from their facials. OXYBERG® onsite production plants can enhance the effectiveness and convenience of both hyperbaric therapy and beauty treatments by providing a consistent and high quality source of oxygen.

Net €23,250.00 €27,667.50*
OXYBERG® 900 Oxygen Generator
Oxygen Generator OXYBERG® 900 Purity 90% 93% 94% 95% O2 Nm3/h 8.1 6.7 6.4 6.2 Comp. air Nm3/h 89.1 73.7 70.4 68.2   Enhancing wastewater treatment with oxygen performance with industrial oxygen generators Wastewater treatment means cleaning up dirty water before putting it back into nature. It's done to make sure sewage and industrial wastewater don't harm the environment or people's health by getting rid of harmful stuff. Oxygen concentrator can play a crucial role in wastewater treatment by supporting various processes that enhance treatment efficiency and ensure the removal of contaminants. Oxygen compressors are used in wastewater treatment to provide oxygen for: aeration oxidation biological treatment ozone generation mixing/circulation processes They help enhance treatment efficiency, promote the breakdown of contaminants, and improve water quality by supporting various treatment methods in wastewater treatment plants. How does using an oxygen generator machine in wastewater treatment make things better? It speeds up treatment, improves how well it works, and helps control smells. Using O2 generators in wastewater treatment can be important for several reasons: Enhanced Treatment Efficiency: Oxygen is really important for aerobic bacteria to thrive and break down organic matter in wastewater. Using oxygen production plant to add extra oxygen to the treatment process helps these bacteria grow and work better, making the treatment more efficient. Reduced Treatment Time: Oxygen units can help accelerate the treatment process by providing a continuous supply of oxygen to the treatment system. This can help reduce the overall treatment time required to treat wastewater, allowing for quicker processing and discharge of treated water. Improved Treatment Performance: Adequate oxygen levels in wastewater treatment systems can help maintain optimal conditions for aerobic bacteria to thrive and effectively break down organic pollutants. This can result in improved treatment performance, better removal of contaminants, and higher quality treated water. Odor Control: Oxygen can help reduce the production of foul-smelling gases such as hydrogen sulfide in wastewater treatment systems. By promoting aerobic conditions through the use of oxygen generators, unpleasant odors can be minimized, creating a more pleasant working environment for operators and nearby residents. Overall, using psa oxygen plants in wastewater treatment can help enhance treatment efficiency, reduce treatment time, improve treatment performance, and control odors, ultimately leading to better overall operation of wastewater treatment plants. Improving Athlete Performance with Oxygen Water clean oxygen-enriched water can help athletes' health. When athletes are training and engaging in physical activity, their bodies need more oxygen. Consuming clean water that contains more oxygen from an oxygen making machine can help athletes to: improve their performance recover better feel less fatigue Also, drinking oxygen water helps keep your body hydrated and gets you important nutrients, which are really important for doing better and bouncing back faster.

Net €19,640.00 €23,371.60*
OXYBERG® 800 Oxygen Generator
Oxygen Generator OXYBERG® 800   Purity 90% 93% 94% 95% O2 Nm3/h 6.3 5.5 5.2 4.9 Comp. air Nm3/h 69.3 60.5 57.2 53.9   BERG OXYGEN Plants, for many different applications clinics, biogas plants, cutting, welding, wellness, beauty, hospitals, fish faming, aquaculture, pharmaceuticals, food industry and diving. Using PSA oxygen generator for water treatment Using industrial psa oxygen plant for water treatment offers several benefits and advantages, including: Oxidation: You can use oxygen concentrators to add oxygen to water treatment. This helps remove things like iron, manganese, and hydrogen sulfide. Adding oxygen makes the chemical reactions work better, so the water gets cleaner and safer to use. Biological Treatment: Oxygen compressor are essential for supporting aerobic biological treatment processes in wastewater treatment plants. Using oxygen manufacturing plants helps aerobic microorganisms like bacteria grow and work better. This helps break down organic matter and pollutants in water. Aeration: You can use oxygen producing machines to add oxygen to lakes, ponds, and reservoirs. This helps make the water better for fish and other aquatic life. Aeration introduces oxygen into the water column, enhancing dissolved oxygen levels, reducing stratification, and preventing the buildup of harmful gases like hydrogen sulfide. Disinfection: Oxygen production plant can help disinfect water and remove harmful substances through advanced oxidation processes (AOPs). They create ozone or hydroxyl radicals from oxygen, which break down pathogens, drugs, and other pollutants in water. Cost-Effectiveness: Making oxygen on-site with oxygen generators can be cheaper than relying on traditional oxygen supply methods, such as liquid oxygen tanks or oxygen cylinders. By producing oxygen onsite, water treatment facilities can save on transportation costs, reduce reliance on external suppliers, and ensure a continuous and reliable oxygen supply for treatment processes. by removing o2 cylinder and o2 tank the oxygen plant cost reduce. Environmental Sustainability: Using oxygen generators for water treatment can contribute to environmental sustainability by reducing energy consumption and carbon emissions associated with traditional oxygen supply methods. Onsite oxygen generation eliminates the need for transporting oxygen cylinders or tanks, promoting a more sustainable approach to water treatment operations. Overall, the use of oxygen concentrator generator for water treatment offers benefits such as:enhanced oxidation support for biological treatment processes improved aeration disinfection capabilities cost-effectiveness environmental sustainability Incorporating oxygen generators into water treatment systems can help improve water quality, enhance treatment efficiency, and support sustainable water management practices. How can we use industrial oxygen generators for drinking water treatment? O2 generators can play a crucial role in drinking water treatment by supporting various processes that improve water quality and ensure safe drinking water. Here are some ways in which oxygen generators can be used for drinking water treatment: Oxidation of Contaminants: You can use an Oxygen Generator machine to add oxygen to water treatment. This helps remove things like iron, manganese, and hydrogen sulfide by changing them into forms that can be easily filtered out or treated. Aeration: Oxygen making machine can support aeration processes in drinking water treatment plants to enhance dissolved oxygen levels in water. Enough dissolved oxygen is important for keeping water creatures healthy, helping biological treatments, and getting rid of bad smells and tastes in water. Disinfection: Oxygen generators can be used in special processes to clean drinking water. They create ozone or hydroxyl radicals that kill off germs and viruses in the water, making sure it's safe to drink. Biological Filtration: Oxygen generators can provide oxygen to support biological filtration processes in drinking water treatment systems. Aerobic microorganisms rely on oxygen to break down organic matter and contaminants present in the water, improving water quality and reducing the risk of microbial contamination. Ozone Generation: Some oxygen units are capable of producing ozone, a powerful oxidizing agent used for disinfection in drinking water treatment. Ozone generated by cylinder of oxygen can be injected into the water to destroy pathogens, bacteria, and viruses, providing an additional layer of protection against waterborne diseases. pH Adjustment: An Oxygen plant PSA can help adjust the pH levels in drinking water treatment. It adds oxygen to the water, which starts chemical reactions to balance the pH. Maintaining the correct pH balance is essential for ensuring the effectiveness of disinfection processes and preventing corrosion in distribution systems. Mixing and Circulation: Oxygen concentrator generators can support mixing and circulation in drinking water treatment systems, ensuring uniform distribution of oxygen throughout the water. Proper mixing helps optimize treatment processes, improve the efficiency of disinfection methods, and enhance overall water quality. By incorporating psa oxygen cylinders into drinking water treatment processes, water treatment plants can enhance treatment efficiency, improve water quality, and ensure the delivery of safe and clean drinking water to consumers. The versatile applications of oxygen generators make them valuable tools for addressing various challenges associated with drinking water treatment.

Net €16,920.00 €20,134.80*
OXYBERG® 700 Oxygen Generator
Oxygen Generator OXYBERG® 700 Purity 90% 93% 94% 95% O2 Nm3/h 4.9 4.2 3.9 3.8 Comp. air Nm3/h 53.9 46.2 42.9 41.8 Many famous companies worldwide trust BERG solutions for making oxygen on-site right where they need it. It's crucial for oxygen to be available immediately and continuously to keep animals safe and healthy. Is it possible to remove hydrogen sulfide from the anaerobic digester by using on site OXYBERG® oxygen generator machine? Yes, you can take out hydrogen sulfide from anaerobic digesters with on-site industrial oxygen generators. It's a common result of anaerobic digestion and can lead to problems like rust, bad smells, and harm. By adding just enough oxygen using the generator to the digester, the hydrogen sulfide can turn into safer stuff. This process, called biological desulfurization, lowers the hydrogen sulfide levels in the digester, reducing its harmful effects. To effectively remove hydrogen sulfide using OXYBERG® O2 generators, follow these steps: Integrate Oxygen Injection: Install the PSA oxygen generator in the anaerobic digester system to introduce oxygen into the environment where hydrogen sulfide is present. Controlled Oxygen Levels: Adjust the oxygen levels from the generator carefully. Make sure there's enough oxygen to turn hydrogen sulfide into safer stuff, but not too much that it messes up the digestion process. Monitor Hydrogen Sulfide Levels: Regularly monitor the levels of hydrogen sulfide in the digester to track the oxygen injection Optimize Operation: Adjust the oxygen compressor's operation using monitoring data to improve the removal of hydrogen sulfide, all while ensuring the digester's overall performance remains optimal. Maintenance and Safety: Ensure that the oxygen making machine is properly maintained and operated safely to prevent any issues during the hydrogen sulfide removal process. By using our oxygen units for removing hydrogen sulfide from anaerobic digesters, you can improve digester performance, reduce environmental impacts, and enhance overall operational efficiency. How can removal of hydrogen sulfide from anaerobic digestion using on-site BERG oxygen production plant help the environment? The removal of hydrogen sulfide from anaerobic digestion using on-site OXYBERG® can have several environmental benefits: Reduced Odor: Hydrogen sulfide is responsible for the foul odor associated with anaerobic digesters. By effectively removing it through oxidation with oxygen, the generation of unpleasant odors can be minimized, improving the local air quality and reducing nuisance for nearby communities. Prevention of Corrosion: Hydrogen sulfide can lead to corrosion of equipment and infrastructure in anaerobic digesters. By reducing its levels with the help of oxygen generators, the risk of corrosion-related damage is decreased, prolonging the lifespan of digester components and reducing maintenance costs. Mitigation of Toxicity: Hydrogen sulfide is toxic to humans and animals at high concentrations. By removing it from anaerobic digesters, the potential health risks associated with exposure to this gas are reduced, creating a safer working environment for operators and preventing harm to surrounding ecosystems. Improved Digestion Efficiency: Excessive levels of hydrogen sulfide can inhibit the activity of microorganisms involved in anaerobic digestion, leading to process inefficiencies and reduced biogas production. By controlling its levels through oxygen injection, the overall performance and efficiency of the digestion process can be enhanced, resulting in higher biogas yields and better waste treatment. Enhanced Sustainability: When we use on-site PSA oxygen plants  to clean out hydrogen sulfide from anaerobic digesters, it makes the waste treatment process better for the environment. This means less harm to nature, things running smoother, and more renewable energy.In summary, Using BERG Kompressoren’s oxygen compressor on-site: Help clean anaerobic digesters Cutting down on smells Stopping rust Lowering health dangers Boosting digestion Making waste treatment more eco-friendly

Net €15,780.00 €18,778.20*
OXYBERG® 600 Oxygen Generator
Oxygen Generator OXYBERG® 600   Purity 90% 93% 94% 95% O2 Nm3/h 3.9 2.9 2.8 2.6 Comp. air Nm3/h 42.9 31.9 30.8 28.6 Well-known companies and associations from around the world rely on BERG KOMPRESSOREN GmbH solutions OXYBERG®️ in the onsite production of oxygen. It is important that oxygen is available instantly and without interruption to ensure that, the life of the animal is not put at risk.

Net €14,670.00 €17,457.30*
OXYBERG® 500 Oxygen Generator
Oxygen Generator OXYBERG® 500 Purity 90% 93% 94% 95% O2 Nm3/h 2.9 2.1 1.9 1.8 Comp. air Nm3/h 31.9 23.1 20.9 19.8 BERG oxygen compressors use in producing process of biogas and bio methane To use industrial oxygen generators effectively in the production of biogas and bio methane, follow these steps:Adding BERG oxygen concentrator to the anaerobic digestion system where microorganisms break down organic matter to make biogas. Make sure to properly connect and ensure the generator is functioning correctly. Adjust Oxygen Levels: Determine the optimal oxygen levels required for the anaerobic digestion process. You can easily control oxygen levels with the oxygen generator machine. Adjust the settings to introduce the perfect amount of oxygen into the system. Monitor Performance: Regularly monitor the performance of the anaerobic digestion process with the oxygen generator in place. Keep track of gas production rates, methane content, digestion efficiency, and any changes in by-product formation. Optimize Operation: Fine-tune the operation of the PSA oxygen generator based on the performance data collected. Adjust the oxygen levels, flow rates, and other factors to improve the efficiency of producing biogas and bio methane. Changing the amount of oxygen, flow rates, and other factors can help make the production process work better. By adjusting these variables, you can improve the efficiency of biogas and bio methane production. Remember to maintain and troubleshoot the ox. Keep it in good condition by servicing it regularly. This will help prevent any issues or breakdowns. Address any issues promptly to keep the system running smoothly. Using the PSA oxygen plant correctly during anaerobic digestion can increase biogas and bio methane production. It can also make the process more efficient and create energy in a sustainable and environmentally friendly manner. Function of Oxygen manufacturing plant for biogas production Oxygen production plan are important for making biogas and bio methane. They provide high-purity oxygen for the biological processes used in these productions. Our oxygen generators can enhance anaerobic digestion. This process involves microorganisms breaking down organic matter without oxygen. The result is the production of biogas. By using Oxygen concentrator generators, the anaerobic digestion process can be optimized, leading to higher biogas and bio methane production. This not only increases the efficiency of the process but also helps in reducing greenhouse gas emissions. The high-purity oxygen provided by O2 generators ensures that the microorganisms involved in the digestion process have the ideal conditions to thrive and produce biogas effectively. Overall, incorporating BERG oxygen generators into biogas production systems can result in a more sustainable and environmentally friendly way of generating energy. Our oxygen generators can help prevent the formation of harmful substances like hydrogen sulfide and volatile organic compounds. This makes the production process cleaner and more efficient. Our PSA oxygen plant are important for improving the anaerobic digestion process for biogas and bio methane production. This helps make renewable energy sources more efficient and sustainable.In-situ biogas processing: an important application of oxygen injection is to increase the methane (CH₄) concentration of the biogas by converting carbon dioxide (CO₂) in the biogas into additional methane, a process that is part of power-to-gas technology: Biological methanation (microbial catalysis): In this process, microorganisms called methanogens use hydrogen (produced by water electrolysis with excess renewable energy) and carbon dioxide in the presence of small amounts of oxygen to produce methane. This reaction can take place directly in the anaerobic fermenter or in a separate bioreactor. Chemical Reaction: The typical reactions facilitated by the addition of small amounts of oxygen and hydrogen are:CO2+4H2→CH4+2H2O Here, carbon dioxide is reduced to methane, increasing the energy value of the biogas. Injecting oxygen into a biogas plant for removing CO₂ directly by converting it into methane enhances the overall methane yield of the process. This upgrading not only improves the quality of the biogas (increasing its calorific value) but also makes it comparable to natural gas standards, which can be crucial for injection into gas grids or for use as vehicle fuel. It’s important to manage the oxygen levels carefully, as excessive oxygen can disrupt the anaerobic processes and pose safety risks due to the flammability of methane. Therefore, control systems are crucial to ensure optimal oxygen dosing in biogas plants.

Net €13,450.00 €16,005.50*