Nitrogen PSA Generators

Our PSA N2 Generators can produce the purity of 97% to 99.999% with the Capacity of 1.4 - 1600 Nm3/h

BERG KOMPRESSOREN GmbH and BERG GaseTech expertise in special plant construction.
Our installation construction meets the highest technical requirements for hard ONSHORE and OFFSHORE use of the oil and gas industry. In addition, BERG prepare special-facilities for the maritime use on ships or for the Pharma and food-stuff industry. The highest precision and quality is required in all areas of application, whether on a drilling platform or in a pharmaceutical product.

PROCESS:
The BERG pressure swing adsorption process separates the nitrogen molecules from the oxygen molecules. The high-purity nitrogen can now be used in a wide range of applications.

NITROBERG®️ SPECIAL FACILITIES ARE USED WHERE THE HIGHEST PERFORMANCE IS REQUIRED.
BERG control technology and networking technology.
Our engineers can access the facilities worldwide at any time in order to query operating statuses, determine possible causes of faults and initiate fault remedying measures where necessary.
The industry standard 4.0 is a real innovation for your security.
Thanks to a consistently implemented "plug and play" philosophy, each system can be used immediately!
NITROBERG® 500 Nitrogen Generator
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   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.

Net €12,555.00 €14,940.45*
NITROBERG® 600 Nitrogen Generator
Nitrogen Generator NITROBERG® 600 3.9 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 25.9 22.6 18.1 13.4 7.2 3.9 2.9 2.1 Compressed air factor  2.3 2.3 2.6 2.9 3.6 5.1 5.7 6.9 Compressed air Nm3/h 59.6 52.0 47.1 38.9 25.9 19.9 16.5 14.5 Compressed air m3/h * 63.9 55.8 50.5 41.7 27.8 21.3 17.7 15.5 Product vessel (l)  90 90 90 90 90 90 90 90 Compressed air vessel (l)  150 150 150 150 150 150 150 150 BERG KOMPRESSOREN GmbH in collaboration with Berg GaseTech NITROGEN GENERATORS for many different applications food, beverages, agriculture, aircraft, chemicals, pharmaceuticals, electronic, laser applications, marine, metallurgy, mining, oil industry, gas industry, turbo compressors. How do you think we can get better food quality through nitrogen generators? Nitrogen generators can play a significant role in improving food quality in various ways: Modified Atmosphere Packaging (MAP): Nitrogen generators can be used to create a controlled atmosphere of nitrogen within food packaging. This helps to extend the shelf life of perishable foods by reducing the oxygen levels, which slows down the oxidation process and inhibits the growth of spoilage-causing microorganisms. Freezing and chilling: Nitrogen generators can be used to rapidly freeze or chill food products, which helps to preserve their freshness, texture, and nutritional value. By using nitrogen as a cooling medium, food products can be quickly frozen without forming ice crystals, resulting in better quality and taste. Food processing: Nitrogen generators can be integrated into food processing equipment to create an inert atmosphere during certain production processes. This can help prevent oxidation, maintain product quality, and enhance the overall safety of the food products. Storage and transportation: Nitrogen generators can be used to maintain controlled atmospheres in storage facilities and transport containers, ensuring that food products remain fresh and free from contaminants throughout the supply chain. Overall, nitrogen generators offer a versatile and efficient solution for improving food quality by enhancing preservation, freshness, and safety throughout the food production and distribution process. Do nitrogen generators require a high start-up cost? The start-up cost of nitrogen generators can vary depending on the type, size, and capacity of the system you choose. Generally, nitrogen generators are considered to have a moderate to high initial investment cost compared to traditional nitrogen gas cylinders. However, the long-term cost savings and benefits of using a nitrogen generator can outweigh the initial investment. Factors that can influence the start-up cost of a nitrogen generator include: Type of nitrogen generator: There are different types of nitrogen generators available, such as membrane, PSA (Pressure Swing Adsorption), and cryogenic generators. Each type has its own cost considerations based on the technology and complexity involved. Capacity and output requirements: The size and capacity of the nitrogen generator needed for your specific application will impact the cost. Higher capacity systems typically have higher initial costs. Installation and setup: Installation costs, including any necessary modifications to existing infrastructure, electrical connections, and plumbing, can add to the overall start-up cost. Maintenance and service: Ongoing maintenance, service contracts, and replacement parts should also be factored into the total cost of ownership. While nitrogen generators may have a higher start-up cost compared to traditional nitrogen cylinders, they offer long-term benefits such as reduced operational costs, increased efficiency, and improved product quality. It's important to consider the overall return on investment and potential savings over time when evaluating the cost-effectiveness of a nitrogen generator for your specific application. You can contact us for complete information about the cost of setting up and even updating nitrogen generators.

Net €15,480.00 €18,421.20*
NITROBERG® 700 Nitrogen Generator
Nitrogen Generator NITROBERG® 700 6.1 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  37.3 33.6 27.3 20.8 11.6 6.1 4.5 3.1 Compressed air factor  2.3 2.3 2.6 2.9 3.6 5.1 5.7 6.9 Compressed air Nm3/h 85.8 77.3 71.0 60.3 41.8 31.1 25.7 21.4 Compressed air m3/h * 92.1 82.9 76.2 64.7 44.8 33.4 27.5 23.0 Product vessel (l)  150 150 150 150 150 150 150 150 Compressed air vessel (l) 250 250 250 250 250 250 250 250 Working principle of nitrogen PSA generators Nitrogen PSA generators operate based on the principle of selective adsorption, where different gas molecules are adsorbed onto a solid adsorbent material at different rates. The working principle of nitrogen PSA generators can be broken down into several key steps: Adsorption: The process begins with compressed air being fed into the PSA generator. The air contains a mixture of nitrogen, oxygen, and other trace gases. Inside the generator, the air passes through a bed of adsorbent material, typically a carbon molecular sieve or zeolite. Selective adsorption: The adsorbent material has a higher affinity for oxygen molecules than nitrogen molecules. As the air flows through the bed, the oxygen molecules are preferentially adsorbed onto the surface of the adsorbent material, while the nitrogen molecules pass through more easily. Separation: As the oxygen molecules are adsorbed onto the adsorbent material, the concentration of nitrogen in the gas stream increases. This results in a stream of nitrogen-enriched gas exiting the generator. Desorption: After a certain period of time or when the adsorbent material becomes saturated with oxygen molecules, the pressure in the bed is reduced, causing the desorption of the adsorbed oxygen molecules. This step is known as the pressure swing, where the pressure is alternated between high and low levels to regenerate the adsorbent material. Nitrogen production: The desorbed oxygen and other trace gases are vented out of the generator, while the nitrogen-enriched gas is collected as the final product. This nitrogen can be used for various applications, such as beverage packaging, food processing, electronics manufacturing, and more. By cycling through these steps of adsorption, selective adsorption, separation, and desorption, nitrogen PSA generators can continuously produce high-purity nitrogen gas on-site for a wide range of industrial applications. The efficiency and effectiveness of nitrogen PSA generators make them a popular choice for industries looking to generate nitrogen gas cost-effectively and sustainably. How we could use nitrogen generators for electronics-production? Electronics component and system manufacturers can reduce running costs in production by using nitrogen generated in-house. With our nitrogen generators, we supply with NITROBERG® high quality solutions for the stationary and mobile production of nitrogen for different applications, including for low volume requirements. In electronics production, nitrogen generators can play a crucial role in various processes to improve product quality, increase efficiency, and reduce costs. Here are some specific ways in which nitrogen generators can be used in electronics manufacturing: Soldering and Reflow Processes: Nitrogen is commonly used in soldering and reflow processes to create an inert atmosphere that prevents oxidation of sensitive electronic components. By using NITROBERG® nitrogen generated on-site, manufacturers can ensure a consistent and high-purity nitrogen supply for these critical processes, leading to improved solder joint quality and reduced defects. Wave Soldering: In wave soldering applications, nitrogen can be used to reduce dross formation and improve solder wetting, resulting in higher-quality solder joints. By generating NITROBERG® nitrogen on-site, electronics manufacturers can optimize their wave soldering processes and achieve better overall production outcomes. Selective Soldering: Nitrogen can also be beneficial in selective soldering applications to prevent oxidation and ensure reliable connections for through-hole components. By utilizing a nitrogen generator, manufacturers can tailor the nitrogen purity and flow rate to meet the specific requirements of their selective soldering equipment, enhancing process control and repeatability. Component Storage and Packaging: Nitrogen is often used to create a controlled atmosphere for component storage and packaging to prevent moisture absorption and oxidation, which can degrade electronic components over time. By generating nitrogen in-house, electronics manufacturers can maintain a consistent nitrogen environment for sensitive components, ensuring their long-term reliability and performance. Cleanroom Applications: In cleanroom environments used for electronics assembly, our nitrogen generators NITROBERG® can supply high-purity nitrogen for purging and flushing systems, as well as for particle removal and contamination control. By producing nitrogen on-site, manufacturers can reduce reliance on external nitrogen suppliers and improve the overall cleanliness and quality of their production processes. NITROBERG® nitrogen generators offer electronics manufacturers a cost-effective and convenient solution for meeting their nitrogen gas requirements across various production stages. By integrating nitrogen generation technology into their operations, companies can enhance product quality, increase process efficiency, and achieve greater control over critical manufacturing processes in the electronics industry.

Net €16,870.00 €20,075.30*
NITROBERG® 800 Nitrogen Generator
Nitrogen Generator NITROBERG® 800 8.2 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  49.6 44.6 36.3 27.6 15.4 8.2 5.9 4.1 Compressed air factor 2.3 2.3 2.6 2.9 3.6 5.1 5.7 6.9 Compressed air Nm3/h 114.1 102.6 94.4 80.0 55.4 41.8 33.6 28.3 Compressed air m3/h * 122.4 110.1 101.3 85.9 59.5 44.9 36.1 30.4 Product vessel (l)  150 150 150 150 150 150 150 150 Compressed air vessel(l)  250 250 250 250 250 250 250 250 Nitrogen PSA generator efficiency The production of high-purity to ultra-pure Nitrogen is what makes NITROBERG® nitrogen generators stand out. In this process, the clean compressed air flows through the adsorption vessels. In this pressure swing adsorption process, the high-quality activated carbon binds the oxygen molecules, while the free nitrogen molecules flow unhindered into the product tank. This production process removes carbon dioxide molecules as well as oxygen molecules. The dry and high-purity nitrogen can now be used in a wide range of applications. Nitrogen PSA generators are known for their high efficiency in producing nitrogen with purity levels typically exceeding 99.5%. Efficiency depends on factors such as design, adsorbent material, and cycle optimization. Nitrogen PSA generators are highly efficient in producing nitrogen gas with purity levels exceeding 99.5%. This high level of efficiency is achieved through a combination of factors, including the design of the generator, the selection of adsorbent materials, and the optimization of the PSA (Pressure Swing Adsorption) cycle. Design: The design of a Nitrogen PSA generator plays a crucial role in its efficiency. These generators are typically engineered with precision to maximize the separation of nitrogen from other gases, such as oxygen and moisture. The layout of the adsorption beds, the flow paths of gases, and the control systems are all carefully designed to ensure optimal performance and purity levels. Adsorbent Material: The adsorbent material used in Nitrogen PSA generators is a key factor in their efficiency. High-quality adsorbents with specific properties are selected to effectively capture oxygen and moisture molecules while allowing nitrogen to pass through. This selective adsorption process is essential for achieving high-purity nitrogen output. Cycle Optimization: The PSA cycle in Nitrogen generators is meticulously optimized to enhance efficiency. The cycle typically consists of alternating adsorption and desorption stages, where nitrogen is adsorbed onto the adsorbent material during one phase and released as a purified gas during another. By fine-tuning the cycle parameters, such as pressure levels, flow rates, and cycle times, manufacturers can maximize the production of high-purity nitrogen gas while minimizing energy consumption and operating costs. Energy Consumption: Another important aspect of efficiency in nitrogen PSA generators is energy consumption. Nitrogen generators are designed to minimize energy usage while maximizing nitrogen production. This is achieved through the optimization of cycle parameters, such as pressure levels and flow rates, as well as the use of energy-efficient components and control systems. By reducing energy consumption, manufacturers can lower operating costs and improve overall efficiency. Reliability and Maintenance: Efficiency in nitrogen PSA generators is also influenced by the reliability of the system and the ease of maintenance. Nitrogen generators are built with high-quality components and materials to ensure long-term reliability and consistent performance. Additionally, these generators are designed for easy maintenance, with accessible components and user-friendly interfaces that simplify operation and upkeep. This helps minimize downtime and optimize productivity, contributing to overall efficiency. Scalability and Flexibility: Efficiency in nitrogen PSA generators is further enhanced by their scalability and flexibility. Nitrogen generators are available in a range of sizes and configurations to meet varying production requirements. This scalability allows manufacturers to easily adjust nitrogen production levels based on demand, optimizing resource utilization and efficiency. Additionally, the flexibility of these generators enables them to adapt to different operating conditions and applications, ensuring consistent performance and high purity levels across a wide range of settings. In summary, the efficiency of nitrogen PSA generators, is a result of advanced design, high-quality materials, optimized cycles, low energy consumption, reliability, ease of maintenance, scalability, and flexibility. By incorporating these factors into their design and performance, we have been able to achieve exceptional efficiency in producing high purity nitrogen generators for a variety of industrial applications.

Net €17,790.00 €21,170.10*
NITROBERG® 900 Nitrogen Generator
Nitrogen Generator NITROBERG® 900 11.6 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 59.3 53.3 46.1 37.4 23.0 11.6 8.7 5.7 Compressed air factor 2.3 2.3 2.6 2.9 3.6 5.1 5.7 6.9 Compressed air Nm3/h 136.4 122.6 119.9 108.5 82.8 59.2 49.6 39.6 Compressed air m3/h * 146.4 131.6 128.6 116.4 88.8 63.5 53.2 42.2 Product vessel (l)  350 350 350 350 250 250 250 250 Compressed air vessel(l)  750 750 750 750 500 500 500 500 Esuring constant quality with measuring nitrogen purity With our nitrogen generators NITROBERG® Constant quality control is ensured by measuring nitrogen purity. All measured values are recorded on our user-friendly inmate touch control panel and can be monitored remotely from any where with internet access. 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 high-pure nitrogen. Maintenance of nitrogen PSA generators Regular maintenance is essential to ensure the optimal performance and longevity of nitrogen PSA generators. This includes tasks such as replacing adsorbent material, checking and cleaning filters, inspecting valves and fittings, and monitoring system performance. Of course, regarding our products, NITROBERG® Nitrogen generators, you can be sure that it will not be necessary to change absorbent materials earlier than 10 to 15 years. Additionally, regular maintenance of nitrogen PSA generators involves monitoring system parameters such as pressure levels, flow rates, and purity levels to ensure they are within specified ranges. Any deviations from these parameters may indicate a potential issue that needs to be addressed promptly to prevent disruptions in nitrogen production. Furthermore, it is important to schedule routine inspections and servicing by qualified technicians to identify and address any wear and tear on components, potential leaks, or other issues that could impact the performance of the generator. This proactive approach can help prevent costly breakdowns and downtime, ensuring continuous and efficient operation of the nitrogen PSA generator. In the case of nitrogen PSA generators, the design and construction are optimized for ease of maintenance. Accessible components, user-friendly interfaces, and clear maintenance instructions make it simpler for operators to perform routine upkeep tasks. Additionally, the high-quality materials used in our NITROBERG® nitrogen generators contribute to their durability and reliability, reducing the frequency of maintenance interventions. By following a comprehensive maintenance schedule and utilizing the features designed for easy upkeep, operators can maximize the efficiency and longevity of nitrogen PSA generators like those offered by nitrogen. This proactive approach to maintenance ensures consistent performance, high purity levels, and reliable operation, ultimately contributing to the overall efficiency of nitrogen gas production processes in industrial settings.

Net €21,850.00 €26,001.50*
NITROBERG® 1000 Nitrogen Generator
Nitrogen Generator NITROBERG® 1000 23.4 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  83.2 75.2 63.4 51.5 37.2 23.4 16.6 10.6 Compressed air factor 2.3 2.3 2.6 2.9 3.3 4.7 5.2 6.2 Compressed air Nm3/h 191.4 173.0 164.8 149.4 122.8 110.0 86.3 67.8 Compressed air m3/h * 205.4 185.6 176.9 160.3 131.7 118.0 92.6 72.8 Product vessel (l)  750 750 750 750 500 500 500 500 Compressed air vessel(l)  1,000 1,000 1,000 1,000 1,000 1,000 1,000 1,000 Installation requirements for nitrogen PSA generators: Installing a nitrogen PSA generator requires considerations such as space availability, electrical power supply, ventilation, and access for maintenance. Installation must be done according to the instructions provided by us and may require professional assistance. Be sure that we will not leave you alone during the installation and maintenance process and we will always be by your side. When installing a nitrogen PSA generator, several factors need to be taken into consideration to ensure optimal performance and safety. Here are some key points to elaborate on the installation requirements mentioned in the paragraph: Space Availability: Nitrogen PSA generators come in various sizes, so it's essential to have enough space to accommodate the unit. The installation location should provide adequate clearance around the generator for ventilation and maintenance access. Additionally, consider factors such as proximity to other equipment or potential obstructions that could impact the operation of the generator. Electrical Power Supply: Nitrogen PSA generators require a stable and sufficient electrical power supply to operate effectively. Ensure that the installation location has access to the appropriate voltage and current requirements specified by the manufacturer. It's crucial to follow electrical safety guidelines during installation to prevent any hazards or malfunctions. Ventilation: Proper ventilation is essential for nitrogen PSA generators to dissipate heat and maintain optimal operating conditions. The installation site should have adequate airflow to prevent overheating and ensure efficient performance. Additionally, consider any ventilation requirements specified by the manufacturer to maintain purity levels and prevent contamination. Access for Maintenance: Accessibility for maintenance tasks is crucial for ensuring the longevity and efficiency of the nitrogen PSA generator. The installation location should allow easy access to key components for routine inspections, servicing, and repairs. Following manufacturer guidelines for maintenance procedures is essential to prevent issues and prolong the lifespan of the generator. Professional Assistance: Due to the complexity of nitrogen PSA generator systems, it is recommended to seek professional assistance for the installation process. Qualified technicians have the expertise and experience to properly set up the generator according to manufacturer guidelines, ensuring safe and efficient operation. Additionally, professional installation can help prevent potential issues that may arise from incorrect setup. In general, compliance with the NITROBERG® nitrogen generator installation requirements and instructions provided by BERG Kompressoren GmbH at the time of purchase and installation is essential for the successful deployment of your PSA nitrogen generator. By considering factors such as space availability, electrical power supply, ventilation, and access for maintenance, operators can ensure optimal performance and reliability of the generator in industrial applications. And with the support of BERG Kompressoren GmbH services , you can rest assured that we will be there to assist you every step of the way, providing guidance and expertise to help you get the most out of your NITROBERG® nitrogen PSA generator.

Net €27,690.00 €32,951.10*
NITROBERG® 1100 Nitrogen Generator
Nitrogen Generator NITROBERG® 1100 27.6 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  115.8 97.2 79.2 67.3 47.7 27.6 20.8 14.1 Compressed air factor  2.3 2.3 2.6 2.9 3.3 4.7 5.2 6.4 Compressed air Nm3/h 266.3 223.6 205.9 195.2 157.4 129.7 108.2 90.2 Compressed air m3/h * 285.8 239.9 221.0 209.5 168.9 139.2 116.1 96.8 Product vessel (l)  750 750 750 750 750 750 750 750 Compressed air vessel (l)  1,000 1,000 1,000 1,000 1,000 1,000 1,000 1,000 Your advantages to buy NITROBERG® nitrogen generator Nitrogen at any time and at any place: With a NITROBERG® nitrogen generator, you have the flexibility to produce nitrogen on-demand, whenever and wherever you need it. This eliminates the need to rely on external suppliers or wait for deliveries, ensuring a constant and reliable nitrogen supply for your operations. Economical through low operating costs: NITROBERG® nitrogen generators are designed to be cost-effective in the long run. By producing nitrogen on-site, you can significantly reduce your operational costs compared to purchasing nitrogen cylinders or bulk liquid nitrogen. This cost savings can lead to a quick return on investment for your nitrogen generation system. Sophisticated and reliable technology: NITROBERG® nitrogen generators are built using advanced technology and high-quality components, ensuring reliable and efficient nitrogen production. The systems are designed for continuous operation with minimal maintenance requirements, providing peace of mind and consistent performance for your nitrogen supply needs. Exact purity for every application: NITROBERG® nitrogen generators offer precise control over the purity of the nitrogen produced, allowing you to tailor the nitrogen quality to meet the specific requirements of your application. Whether you need high-purity nitrogen for sensitive processes or standard purity levels for general applications, the system can be adjusted to deliver the exact purity levels you need. No long-term rental commitments: Unlike renting nitrogen cylinders or tanks, investing in a NITROBERG® nitrogen generator gives you ownership and control over your nitrogen supply without any long-term rental commitments. This flexibility allows you to scale your nitrogen production based on your changing needs and avoid the hassle of managing rental agreements or returning empty cylinders. Hardly any CO2 pollution for the environment: By generating nitrogen on-site with a NITROBERG® nitrogen generator, you can significantly reduce your carbon footprint and environmental impact compared to traditional nitrogen sourcing methods. The system operates efficiently and produces nitrogen with minimal CO2 emissions, contributing to a more sustainable and eco-friendly approach to nitrogen supply. BENEFITS of NITROBERG® Nitrogen Generator Plug and play simple and constant nitrogen supply: The NITROBERG® nitrogen generator is designed for easy installation and operation, making it a plug-and-play solution for your nitrogen supply needs. Once installed, the system can continuously produce nitrogen on-demand, ensuring a constant and reliable nitrogen supply without the need for manual intervention. This simplicity and convenience make it easy to integrate the nitrogen generator into your existing operations and maintain a steady nitrogen supply without any hassle. Constant measurement of nitrogen purity: One of the key features of the NITROBERG® nitrogen generator is its ability to monitor and maintain the purity of the nitrogen produced. The system is equipped with advanced sensors and monitoring capabilities that continuously measure the nitrogen purity levels, ensuring that the output meets your specific requirements. This constant monitoring helps to guarantee consistent quality and performance, giving you peace of mind that your nitrogen supply is always up to standard for your applications. Savings from the very first minute: Investing in a NITROBERG® nitrogen generator can lead to immediate cost savings from the moment it is put into operation. By producing nitrogen on-site, you can eliminate the need to purchase nitrogen cylinders or rely on external suppliers, reducing your operational costs significantly. The savings from using a nitrogen generator can start accumulating right away, providing a quick return on investment and long-term cost benefits for your business. Low-maintenance, compact design: The NITROBERG® nitrogen generator is engineered with a focus on reliability and efficiency, featuring a low-maintenance design that minimizes downtime and operational disruptions. The system is built with high-quality components and advanced technology to ensure long-lasting performance with minimal maintenance requirements. Additionally, the compact footprint of the nitrogen generator makes it easy to install in limited spaces, saving valuable floor space and allowing for flexible placement within your facility. This combination of low maintenance and compact design enhances the overall usability and efficiency of the NITROBERG® nitrogen generator, making it a practical and reliable solution for your nitrogen supply needs.

Net €32,470.00 €38,639.30*
NITROBERG® 1200 Nitrogen Generator
Nitrogen Generator NITROBERG® 1200 39.6 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  139.9 127.8 107.7 87.5 63.2 39.6 28.2 18.1 Compressed air factor 2.3 2.3 2.6 2.9 3.3 4.7 5.2 6.4 Compressed air Nm3/h 321.8 293.9 280.0 253.8 208.6 186.1 146.6 115.8 Compressed air m3/h * 345.3 315.5 300.5 272.3 223.8 199.7 157.3 124.3 Product vessel (l)  750 750 750 750 750 750 750 750 Compressed air vessel (l)  1,000 1,000 1,000 1,000 1,000 1,000 1,000 1,000 Enhancing Safety and Efficiency: NITROBERG® Nitrogen Generators for Batch Mixers" NITROBERG® Nitrogen Generators are innovative systems designed to enhance the safety and efficiency of batch mixers in various industries. These generators produce high-purity nitrogen on-site, eliminating the need for traditional nitrogen cylinders or tanks. One of the key benefits of using NITROBERG® Nitrogen Generators is the improved safety they offer. By generating nitrogen on-demand, there is no longer a need to handle and store large nitrogen cylinders, reducing the risk of accidents and leaks associated with these traditional storage methods. This significantly enhances the overall safety of the mixing process and minimizes potential hazards in the workplace. In addition to safety benefits, NITROBERG® Nitrogen Generators also contribute to increased efficiency in batch mixing operations. The consistent supply of high-purity nitrogen ensures a stable and controlled mixing environment, leading to more precise and reliable results. This helps to optimize production processes, reduce downtime, and improve overall product quality. Furthermore, the on-site generation of nitrogen with NITROBERG® Nitrogen Generators offers cost savings by eliminating the need to purchase and transport nitrogen cylinders. This not only reduces operational expenses but also provides a more sustainable and environmentally friendly solution for businesses. Overall, NITROBERG® Nitrogen Generators are a valuable investment for batch mixers looking to enhance safety, efficiency, and cost-effectiveness in their operations. Safety features of NITROBERG® nitrogen PSA generators NITROBERG® Nitrogen Generators are equipped with several safety features to ensure the secure operation of the system and minimize potential risks. Some of the key safety features include: Leak Detection System: NITROBERG® Nitrogen Generators are designed with advanced leak detection systems that continuously monitor the system for any leaks or abnormalities. In the event of a leak, the system will automatically shut down to prevent further release of nitrogen gas. Pressure Relief Valves: The generators are equipped with pressure relief valves that help regulate the pressure within the system. These valves release excess pressure to prevent over-pressurization and ensure safe operation. Oxygen Sensors: Oxygen sensors are integrated into the generators to monitor the purity of the nitrogen produced. If the oxygen levels exceed the set threshold, the system will alert operators and take corrective actions to maintain the desired nitrogen purity level. Emergency Stop Button: NITROBERG® Nitrogen Generators feature an emergency stop button that allows operators to quickly shut down the system in case of an emergency or safety hazard. Overheat Protection: The generators are designed with overheat protection mechanisms to prevent overheating of critical components. This helps maintain the integrity of the system and ensures safe operation. Remote Monitoring Capabilities: Some models of NITROBERG® Nitrogen Generators offer remote monitoring capabilities, allowing operators to monitor the system's performance and safety parameters from a distance. This feature enhances safety by providing real-time visibility and control over the system. Overall, these safety features of NITROBERG® Nitrogen Generators help ensure a secure operating environment, reduce risks associated with nitrogen handling, and enhance overall workplace safety during batch mixing operations.

Net €38,750.00 €46,112.50*
NITROBERG® 1300 Nitrogen Generator
Nitrogen Generator NITROBERG® 1300 50.0 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  212.9 186.1 141.6 118.9 89.5 50.0 38.1 26.2 Compressed air factor  2.3 2.3 2.6 2.9 3.3 4.7 5.2 6.4 Compressed air Nm3/h 489.7 428.0 368.2 344.8 295.4 235.0 198.1 167.7 Compressed air m3/h * 525.5 459.4 395.1 370.1 317.0 252.2 212.6 179.9 Product vessel (l)  1,500 1,500 1,500 1,500 1,000 1,000 1,000 1,000 Compressed air vessel (l)  2,000 2,000 2,000 2,000 1,500 1,500 1,500 1,500 Nitrogen purity levels achieved by PSA generators PSA NITROBERG® nitrogen generators can achieve purity levels exceeding 99.5%, making them suitable for a wide range of industrial applications where high-purity nitrogen is required. Depending on your needs, our PSA Nitrogen Generators NITROBERG® will provide you with a purity up to 99.999, and they are sure to meet your needs. PSA NITROBERG® nitrogen generators are designed to deliver exceptional purity levels, exceeding 99.5%, making them ideal for various industrial applications that demand high-purity nitrogen. With the capability to achieve purity levels up to 99.999%, these generators offer a reliable and efficient solution for industries where precise nitrogen quality is crucial. The advantages of high-purity nitrogen generated by NITROBERG® nitrogen generators are numerous. Firstly, the superior purity levels ensure that the nitrogen produced is free from impurities, contaminants, and oxygen, which can have detrimental effects on sensitive processes and equipment. This high level of purity enhances the safety and reliability of operations, reducing the risk of corrosion, contamination, and equipment failure. Moreover, the high-purity nitrogen generated by PSA NITROBERG® nitrogen generators is essential for applications that require inerting, blanketing, or purging. In industries such as oil and gas, chemical processing, pharmaceuticals, and food packaging, where maintaining an oxygen-free environment is critical, the use of high-purity nitrogen ensures the preservation of product quality, prevents oxidation, and minimizes the risk of combustion or explosions. Additionally, the precise control over nitrogen purity levels provided by NITROBERG® nitrogen generators allows for customization based on specific application requirements. Whether you need nitrogen with a purity level of 99.5% or higher, these generators can be tailored to meet your exact needs, ensuring optimal performance and efficiency in your processes. Overall, the advanced technology and capabilities of PSA NITROBERG® nitrogen generators make them a valuable asset for industries that rely on high-purity nitrogen. With their ability to deliver consistent and reliable nitrogen quality, these generators offer a cost-effective solution for enhancing operational efficiency, improving product quality, and ensuring equipment integrity in a wide range of industrial applications.

Net €48,490.00 €57,703.10*
NITROBERG® 1400 Nitrogen Generator
Nitrogen Generator NITROBERG® 1400 73.4 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 304.9 267.3 209.9 181.7 126.7 73.4 55.4 37.6 Compressed air factor 2.3 2.3 2.6 2.9 3.3 4.7 5.2 6.4 Compressed air Nm3/h 701.3 614.8 545.7 526.9 418.1 345.0 288.1 240.6 Compressed air m3/h * 752.6 659.8 585.7 565.5 448.7 370.2 309.2 258.2 Product vessel (l)   2,000 2,000 2,000 2,000 1,500 1,500 1,500 1,500 Compressed air vessel (l) 3,000 3,000 3,000 3,000 2,000 2,000 2,000 2,000   Applications of NITROBERG® PSA nitrogen generator: PSA nitrogen generators have found many applications in various industries such as food packaging, electronics manufacturing, pharmaceuticals and chemical processing, where a reliable source of high purity nitrogen is required. In the food packaging industry, PSA nitrogen generators are commonly used to create a modified atmosphere packaging (MAP) environment. This process involves replacing the air inside food packaging with nitrogen to extend the shelf life of products by preventing oxidation and microbial growth. By using a NITROBERG® nitrogen generator, food manufacturers can ensure that their products remain fresh and safe for consumption for longer periods. In electronics manufacturing, nitrogen is often used during the soldering process to prevent oxidation and improve the quality of solder joints. PSA nitrogen generators provide a continuous and reliable source of high purity nitrogen, ensuring consistent results in electronic assembly processes. The inerting properties of nitrogen also help to protect sensitive electronic components from damage caused by exposure to oxygen. In the pharmaceutical industry, nitrogen is essential for a wide range of applications, including inerting, purging, and blanketing processes. By using a NITROBERG® nitrogen generator, pharmaceutical companies can maintain strict quality control standards and ensure the integrity of their products. Nitrogen gas also plays a crucial role in preventing contamination and degradation of pharmaceutical compounds during storage and transportation. Chemical processing facilities rely on nitrogen for a variety of purposes, such as blanketing tanks to prevent explosions, purging pipelines to remove impurities, and creating an oxygen-free environment for sensitive reactions. With a NITROBERG® PSA nitrogen generator, chemical manufacturers can optimize their processes, improve safety measures, and reduce operational costs by producing nitrogen on-site. Overall, the versatility and reliability of NITROBERG® PSA nitrogen generators make them an indispensable tool for industries that require high purity nitrogen for various applications. By investing in a nitrogen generator system, businesses can enhance their operational efficiency, ensure product quality, and achieve cost savings in the long run.

Net €62,950.00 €74,910.50*
NITROBERG® 1500 Nitrogen Generator
Nitrogen Generator NITROBERG® 1500 88.7 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  367.3 319.8 239.6 198.9 149.5 88.7 66.9 45.8 Compressed air factor 2.3 2.3 2.6 2.9 3.3 4.7 5.2 6.4 Compressed air Nm3/h 844.8 735.5 623.0 576.8 493.4 416.9 347.9 293.1 Compressed air m3/h * 906.6 789.4 668.6 619.0 529.5 447.4 373.3 314.5 Product vessel (l) 3,000 3,000 3,000 3,000 2,000 2,000 2,000 2,000 Compressed air vessel (l) 4,000 4,000 4.000 4,000 3.000 3,000 3,000 3,000 NITROGEN IN THE OIL AND GAS INDUSTRY our NITROBERG® is used for headspace inserting and flushing of oil tanks in refineries or oil tankers. If oil is removed from the storage tanks, the oil level in the tank drops. At the same time, the headspace in the oil tank needs to be inerted with N2. As an inert gas, nitrogen is highly inert and displaces any oxygen present. All our Nitrogen Generators are made in Germany by BERG GaseTech. This process is crucial in the oil and gas industry to prevent the oxidation and degradation of the oil during storage or transportation. By inerting the headspace with nitrogen, the risk of combustion or explosion is significantly reduced, as oxygen is displaced and the potential for ignition is minimized. Our NITROBERG® systems are designed to provide a reliable and continuous supply of high-purity nitrogen for headspace inserting and flushing applications in oil tanks. With advanced gas separation technology, our nitrogen generators ensure that the nitrogen produced meets the strict purity requirements of the oil and gas industry. In addition to inerting oil tanks, nitrogen is also used in various other applications within the oil and gas sector. It is commonly employed for purging pipelines, blanketing storage tanks, and enhancing oil recovery processes. The use of nitrogen helps to maintain the integrity of equipment, prevent corrosion, and improve operational efficiency in oil and gas facilities. With NTron oxygen sensors integrated into our nitrogen generators, users can monitor and control the oxygen levels in the headspace of oil tanks with precision. This real-time oxygen monitoring ensures that the inerting process is carried out effectively and safely, providing peace of mind to operators and maintenance personnel. At BERG GaseTech, we are committed to delivering high-quality nitrogen generation solutions that meet the specific needs of the oil and gas industry. Our expertise in gas generation technology, coupled with our dedication to performance enhancement and gas purity control, makes us a trusted partner for companies looking to optimize their operations in the oil and gas sector. Whether it's for inerting oil tanks, purging pipelines, or enhancing production processes, our nitrogen generators offer a reliable and cost-effective solution for a wide range of applications in the oil and gas industry. Trust BERG GaseTech for all your industrial gas generation needs, and experience the benefits of efficient and reliable nitrogen supply in your operations.

Net €72,680.00 €86,489.20*
NITROBERG® 1600 Nitrogen Generator
Nitrogen Generator NITROBERG® 1600 106.5 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 441.2 382.9 287.5 238.5 179.6 106.5 81.1 55.1 Compressed air factor  2.3 2.3 2.6 2.9 3.3 4.7 5.2 6.4 Compressed air Nm3/h 1,014.8 880.7 747.5 691.9 592.7 500.6 421.7 352.6 Compressed air m3/h * 1,088.8 945.0 802.1 742.5 635.9 537.1 452.5 378.4 Product vessel (l)  4,000 4,000 4,000 4,000 3,000 3,000 3,000 3,000 Compressed air vessel (l) 6,000 6,000 6,000 6,000 4,000 4,000 4,000 4,000   A residual oxygen analysis measurement, which is integrated as standard in all Nitroberg® models, provides information about the nitrogen content produced. This can be read out via the touch control panel S. Enhanced Performance Monitoring with Integrated Residual Oxygen Analysis in NITROBERG® PSA Nitrogen Generators The inclusion of a residual oxygen analysis measurement as a standard feature in all NITROBERG® models offers unparalleled insight into the quality and efficiency of the nitrogen generated. This innovative technology allows users to easily monitor and assess the nitrogen content produced, providing valuable data for optimizing processes and ensuring consistent performance. With the ability to read out this information via the user-friendly touch control panel, users can make informed decisions in real-time to maintain optimal nitrogen purity levels. One of the standout features of the residual oxygen analysis measurement is its unique selling point in the price segment it operates in. By offering this advanced capability as a standard inclusion, NITROBERG® sets itself apart from competitors and demonstrates a commitment to providing exceptional value to customers. This integrated technology not only enhances the overall user experience but also contributes to cost savings by enabling precise control over nitrogen production processes. Furthermore, the integration of residual oxygen analysis in NITROBERG® PSA Nitrogen Generators underscores the brand's dedication to reliability and quality. By ensuring that users have access to crucial performance data at their fingertips, NITROBERG® empowers them to optimize their operations and achieve desired nitrogen purity levels consistently. This proactive approach to monitoring and control not only enhances operational efficiency but also contributes to environmental benefits by reducing waste and improving resource utilization. Enhancing Nitrogen Generator Performance with NTron Oxygen Sensors in NITROBERG® Systems The utilization of NTron Oxygen sensors in NITROBERG® nitrogen generators offers several advantages that contribute to the overall performance and reliability of the system. Here are some key benefits of using NTron Oxygen sensors in NITROBERG® nitrogen generators: High Accuracy: NTron Oxygen sensors are known for their high level of accuracy in measuring residual oxygen levels. This precision ensures that users can rely on the data provided by the sensors to make informed decisions about nitrogen production processes. Longevity: NTron Oxygen sensors are designed to be durable and long-lasting, even in demanding industrial environments. This longevity ensures that the sensors will continue to provide accurate readings over an extended period, reducing the need for frequent replacements and maintenance. Fast Response Time: NTron Oxygen sensors offer a fast response time, allowing users to quickly monitor changes in residual oxygen levels in real-time. This rapid feedback enables operators to make immediate adjustments to maintain optimal nitrogen purity levels. Compatibility: NTron Oxygen sensors are designed to be compatible with a wide range of industrial applications, making them a versatile choice for integration into NITROBERG® nitrogen generators. This compatibility ensures seamless operation and easy integration with existing systems. Reliability: The reputation of NTron Oxygen sensors for reliability and consistent performance aligns well with the high standards set by NITROBERG® nitrogen generators. By using these reliable sensors, NITROBERG® ensures that users can trust the accuracy and dependability of the oxygen measurement data provided. Overall, the use of NTron Oxygen sensors in NITROBERG® nitrogen generators enhances the monitoring capabilities and performance of the system, providing users with valuable data to optimize nitrogen production processes and maintain high-quality output consistently.

Net €89,800.00 €106,862.00*
NITROBERG® 1700 Nitrogen Generator
Nitrogen Generator NITROBERG® 1700 128.4 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  536.8 462.4 346.5 288.2 224.6 128.4 94.9 64.4 Compressed air factor 2.3 2.3 2.6 2.9 3.3 4.7 5.2 6.4 Compressed air Nm3/h 1,234.6 1,063.5 900.9 835.8 741.2 603.5 493.5 412.2 Compressed air m3/h * 1,324.8 1,141.2 966.7 896.8 795.3 647.5 529.5 442.2 Product vessel (l)  4,000 4,000 4,000 4,000 3,000 3,000 3,000 3,000 Compressed air vessel (l) 6,000 6,000 6,000 6,000 4,000 4,000 4,000 4,000 The entry-level models of the new Nitrogen Generator NITROBERG product line combine user-friendliness and robustness with maximum economic efficiency for on-site nitrogen production. Efficient and Economical: Introducing NITROBERG® PSA Nitrogen Generators for On-Site Production The entry-level models of the new NITROBERG® PSA nitrogen generators are designed to offer a perfect balance of user-friendliness, robustness, and maximum economic efficiency for on-site nitrogen production. These generators are ideal for businesses looking to streamline their operations and reduce costs by producing nitrogen on-site, eliminating the need for costly nitrogen deliveries or cylinder rentals. With a focus on simplicity and ease of use, the entry-level models of NITROBERG® PSA nitrogen generators are equipped with intuitive controls and monitoring systems, allowing operators to efficiently manage the nitrogen production process. The robust construction ensures reliable performance and long-term durability, minimizing downtime and maintenance costs. Moreover, the economic efficiency of NITROBERG® PSA nitrogen generators lies in their low operating costs and energy-efficient design. By utilizing pressure swing adsorption technology, these generators optimize the nitrogen production process, delivering high-purity nitrogen at a fraction of the cost compared to traditional nitrogen supply methods. In conclusion, the entry-level models of the NITROBERG® PSA nitrogen generators offer a cost-effective solution for businesses seeking to enhance their operations with on-site nitrogen production. With their user-friendly interface, robust construction, and maximum economic efficiency, these generators are poised to revolutionize the way industries approach nitrogen supply, providing a sustainable and reliable source of nitrogen for various applications. Unlocking Efficiency and Quality: Applications of NITROBERG® PSA Nitrogen Generators Across Industries Manufacturing facilities: Companies in the manufacturing sector, such as automotive, electronics, and food processing, can benefit from using NITROBERG® PSA nitrogen generators to support various production processes that require nitrogen, such as inerting, blanketing, and purging. Laboratories: Research laboratories and testing facilities can utilize NITROBERG® PSA nitrogen generators to produce high-purity nitrogen for analytical instruments, sample preservation, and gas chromatography applications, ensuring reliable and consistent results. Beverage industry: Breweries, wineries, and soft drink manufacturers can integrate NITROBERG® PSA nitrogen generators into their operations to produce nitrogen for beverage packaging, dispensing systems, and nitrogen infusion processes, enhancing product quality and shelf life. Oil and gas sector: Exploration and production companies can use NITROBERG® PSA nitrogen generators for well stimulation, enhanced oil recovery, and pipeline maintenance applications, reducing operational costs and minimizing environmental impact. Pharmaceutical industry: Pharmaceutical manufacturers can rely on NITROBERG® PSA nitrogen generators to supply nitrogen for pharmaceutical packaging, inerting of sensitive materials, and controlled atmosphere storage, ensuring product integrity and compliance with regulatory standards.

Net €108,700.00 €129,353.00*
NITROBERG® 1800 Nitrogen Generator
Nitrogen Generator NITROBERG® 1800167.2 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   649.9 606.8 459.6 378.8 295.8 167.2 122.6 85.1 Compressed air factor 2.3 2.3 2.6 2.9 3.3 4.7 5.2 6.4 Compressed air Nm3/h 1,598.3 1,395.6 1,195.0 1,098.5 976.1 785.8 637.5 544.6 Compressed air m3/h * 1,714.9 1,497.5 1,282.2 1,178.7 1,047.4 843.2 684.1 584.4 Product vessel (l)  5,000 5,000 5,000 5,000 3,000 3,000 3,000 3,000 Compressed air vessel (l)  8,000 8,000 8,000 8,000 6,000 6,000 6,000 6,000   NITROBERG SPECIAL FACILITIES ARE USED WHERE THE HIGHEST PERFORMANCE IS REQUIRED.⠀ BERG control technology and networking technology, our engineers can access the facilities worldwide at any time in order to query operating statuses. Comparison NITROBERG® nitrogen PSA generators and other nitrogen generation methods: If we want to compare NITROBERG® PSA nitrogen generators with alternative methods such as cryogenic distillation, membrane separation and pressure swing absorption. Factors to compare include energy consumption, capital costs, operating costs, reliability, and purity levels. When comparing NITROBERG® PSA nitrogen generators with alternative nitrogen generation methods such as cryogenic distillation, membrane separation, and pressure swing adsorption (PSA), several factors need to be considered: 1. Energy Consumption: Cryogenic distillation: Requires high energy consumption due to the need for cryogenic temperatures to separate nitrogen from air. Membrane separation: Typically has lower energy consumption compared to cryogenic distillation but may not be as efficient as PSA. PSA: Offers moderate energy consumption levels, making it a cost-effective option for nitrogen generation. 2. Capital Costs: Cryogenic distillation: Involves high capital costs for the installation of complex equipment and infrastructure. Membrane separation: Generally has lower capital costs compared to cryogenic distillation but may require more frequent maintenance. PSA: Offers competitive capital costs and is a cost-effective solution for on-site nitrogen generation. 3. Operating Costs: Cryogenic distillation: Involves high operating costs due to the energy-intensive nature of the process. Membrane separation: Generally has lower operating costs compared to cryogenic distillation but may have higher maintenance costs. PSA: Offers low operating costs and efficient nitrogen production, making it a cost-effective solution for continuous nitrogen supply. 4. Reliability: Cryogenic distillation: Known for its high reliability but may require regular maintenance and skilled operators. Membrane separation: Generally reliable but may be sensitive to changes in operating conditions. PSA: Offers high reliability, easy operation, and minimal maintenance requirements, making it a dependable option for nitrogen generation. 5. Purity Levels: Cryogenic distillation: Can achieve high purity levels but may require additional purification steps. Membrane separation: Typically produces nitrogen with moderate purity levels suitable for many applications. PSA: Offers customizable purity levels ranging from standard industrial grades to high-purity nitrogen for critical applications. Overall, NITROBERG® PSA nitrogen generators stand out as a cost-effective, energy-efficient, and reliable solution for on-site nitrogen generation, making them a preferred choice for various industries requiring a consistent nitrogen supply.

Net €136,600.00 €162,554.00*
NITROBERG® 1900 Nitrogen Generator
Nitrogen Generator NITROBERG® 1900 213.8 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 894.6 777.4 575.7 478.6 359.7 213.8 161.6 109.8 Compressed air factor 2.3 2.3 2.6 2.9 3.3 4.7 5.2 6.4 Compressed air Nm3/h 2,057.6 1,788.0 1,496.8 1,387.9 1,187.0 1,004.9 840.3 702.7 Compressed air m3/h * 2,207.8 1,918.5 1,606.1 1,489.3 1,273.7 1,078.2 901.7 754.0 Product vessel (l) 6,000 6,000 6,000 6,000 4,000 4,000 4,000 4,000 Compressed air vessel (l) 9,000 9,000 9,000 9,000 9,000 9,000 9,000 9,000   Nitrogen generators in beverage production Nitrogen is used in various process steps of beverage production to avoid oxidation during the manufacture, bottling and storage of beverages. Using NITROBERG® nitrogen generators you can save costs and act. NITROBERG® Nitrogen generators play a crucial role in the beverage industry, especially in preventing oxidation during the production, bottling, and storage of beverages. Here are some key uses of nitrogen generators in the beverage industry: Blanketing and purging: Nitrogen generators are used to create a blanket of nitrogen gas over the beverage during production, bottling, and storage processes. This inert gas displaces oxygen from the headspace of containers and tanks, preventing oxidation of the beverage. By maintaining an oxygen-free environment, nitrogen helps preserve the flavor, aroma, and quality of the beverage. Pressurization and carbonation: In the production of carbonated beverages such as beer, soft drinks, and sparkling water, nitrogen generators are used to pressurize and carbonate the liquid. Nitrogen gas is dissolved into the beverage to create a smooth and creamy texture, enhance mouthfeel, and improve carbonation stability. This process helps maintain the desired level of carbonation in the final product. Line purging and flushing: Nitrogen generators are also used to purge and flush beverage lines, tanks, and equipment with nitrogen gas. This helps remove residual oxygen and other contaminants from the system, ensuring that the beverage remains free from oxidation and spoilage. Line purging with nitrogen is essential for maintaining product quality and extending shelf life. Shelf life extension: By using nitrogen generators to create an oxygen-free environment, beverage manufacturers can extend the shelf life of their products. Nitrogen helps prevent oxidation, microbial growth, and flavor degradation, allowing beverages to maintain their freshness and quality for longer periods. This is particularly important for sensitive beverages such as wine, beer, and fruit juices. Nitrogen generators are essential tools in the beverage industry for preventing oxidation, preserving product quality, enhancing carbonation, and extending shelf life. By incorporating nitrogen gas into their production processes, beverage manufacturers can ensure that their products meet high standards of taste, appearance, and freshness. How can the use of nitrogen generators in the beverage industry to extend shelf life positively impact the environment? Using nitrogen generators NITROBERG® in the beverage industry to extend the shelf life of products can have positive environmental impacts. Here are some ways in which this practice can benefit the environment: Reduced food waste: By extending the shelf life of beverages through the use of nitrogen generators, manufacturers can reduce the amount of food waste generated. Beverages that would otherwise spoil and be discarded can be preserved for longer periods, leading to less waste ending up in landfills. This helps conserve resources and reduce the environmental impact of food production and disposal. Lower energy consumption: When beverages have a longer shelf life, there is less need for frequent production, transportation, and refrigeration of new batches. This can result in energy savings throughout the supply chain, as fewer resources are required to produce and store beverages. Lower energy consumption leads to reduced greenhouse gas emissions and helps mitigate climate change. Sustainable packaging: Extending the shelf life of beverages can also support the use of sustainable packaging materials. With longer-lasting products, manufacturers may opt for packaging solutions that are more environmentally friendly, such as recyclable or compostable materials. This shift towards sustainable packaging contributes to reducing waste and promoting a circular economy. Conservation of resources: By preventing spoilage and preserving the quality of beverages using nitrogen generators, manufacturers can conserve valuable resources such as water, energy, and raw materials. Extended shelf life means less frequent production cycles and lower resource consumption overall. This sustainable approach aligns with efforts to protect natural resources and reduce the environmental footprint of food and beverage production. In conclusion, utilizing nitrogen generators to improve the shelf life of foods like beverages in the industry can have positive environmental implications by reducing food waste, lowering energy consumption, promoting sustainable packaging practices, and conserving resources. These benefits contribute to a more sustainable and environmentally responsible approach to food production and distribution.

Net €175,900.00 €209,321.00*
NITROBERG® 2000 Nitrogen Generator
Nitrogen Generator NITROBERG® 2000 259.8 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 1,057.7 921.1 689.4 572.8 435.3 259.8 192.6 133.6 Compressed air factor 2.3 2.3 2.6 2.9 3.3 4.7 5.2 6.4 Compressed air Nm3/h 2,432.7 2,118.5 1,792.4 1,661.1 1,436.5 1,221.1 1,001.5 855.0 Compressed air m3/h * 2,610.3 2,273.2 1,923.3 1,782.4 1,541.4 1,310.2 1,074.6 917.5 Product vessel (l) 6,000 6,000 6,000 6,000 4,000 4,000 4,000 4,000 Compressed air vessel (l) 10,000 10,000 10,000 10,000 10,000 10,000 10,000 10,000 How can nitrogen generators help preserve the environment? Nitrogen generators can help preserve the environment in several ways: Reduced carbon footprint: Nitrogen generators eliminate the need for transporting and storing nitrogen gas cylinders, which reduces greenhouse gas emissions associated with transportation. By producing nitrogen on-site, the carbon footprint of nitrogen generation is significantly lower compared to traditional cylinder delivery methods. Energy efficiency: Nitrogen generators use energy-efficient technologies such as membrane separation or Pressure Swing Adsorption (PSA) to produce nitrogen. NITROBERG® Nitrogen generators consume less energy compared to traditional nitrogen production processes, resulting in lower energy consumption and reduced environmental impact. Reduced waste: With on-site nitrogen generation, there is no need for disposable nitrogen gas cylinders, which can contribute to waste generation and disposal issues. By producing nitrogen as needed, there is less packaging waste and fewer cylinders ending up in landfills. Conservation of resources: On-site NITROBERG® Nitrogen generation helps conserve natural resources by eliminating the need for extracting and transporting nitrogen gas from remote locations. This reduces the environmental impact associated with resource extraction and transportation. Improved air quality: By using a nitrogen generator instead of relying on traditional nitrogen gas sources, you can help reduce air pollution associated with transportation emissions and industrial processes. On-site nitrogen generation can contribute to cleaner air and a healthier environment. Overall, nitrogen generators offer a more sustainable and environmentally friendly alternative to traditional nitrogen gas delivery methods. By reducing energy consumption, waste generation, and greenhouse gas emissions, nitrogen generators can help preserve the environment and promote sustainability in various industries.

Net €211,400.00 €251,566.00*
Capacity
 
Nitrogen purity
Quality class
Residual O2 (PPM)
  97,0%
-
-
98,0%
-
-
99,0%
2,0
10000
99,5%
2,5
5000
99,9%
3,0
1000
99,99%
4,0
100
99,995%
4,5
50
99,999%
5,0
10
NITROBERG® 500 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
17.3
39.8
90
150
14.9
34.3
90
150
12.6
32.8
90
150
9.2
26.7
90
150
5.1
18.4
90
150
2.8
14.3
90
150
2.1
12.0
90
150
1.4
9.7
90
150
NITROBERG® 600 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
25.9
59.6
90
150
22.6
52.0
90
150
18.1
47.1
90
150
13.4
38.9
90
150
7.2
25.9
90
150
3.9
19.9
90
150
2.9
16.5
90
150
2.1
14.5
90
150
NITROBERG® 700 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
37.3
85.8
150
250
33.6
77.3
150
250
27.3
71.0
150
250
20.8
60.3
150
250
11.6
41.8
150
250
6.1
31.3
150
250
4.5
25.7
150
250
3.1
21.4
150
250
NITROBERG® 800 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
49.6
114.1
150
250
44.6
102.6
150
250
36.3
94.4
150
250
27.6
80.0
150
250
15.4
55.4
150
250
8.2
41.8
150
250
5.9
33.6
150
250
4.1
28.3
150
250
NITROBERG® 900 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
59.3
136.4
350
750
53.3
122.6
350
750
46.1
119.9
350
750
37.4
108.5
350
750
23.0
82.8
250
500
11.6
59.2
250
500
8.7
49.6
250
500
5.7
39.3
250
500
NITROBERG® 1000 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
83.2
191.4
750
1000
75.2
173.0
750
1000
63.4
164.8
750
1000
51.5
149.4
750
1000
37.2
122.8
500
1000
23.4
110.0
500
1000
16.6
86.3
500
1000
10.6
67.8
500
1000
NITROBERG® 1100 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
115.8
266.3
750
1000
97.2
223.6
750
1000
79.2
205.9
750
1000
67.3
195.2
750
1000
47.7
157.4
750
1000
27.6
129.7
750
1000
20.8
108.2
750
1000
14.1
90.2
750
1000
NITROBERG® 1200 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
139.9
321.8
750
1000
127.8
293.9
750
1000
107.7
280.0
750
1000
87.5
253.8
750
1000
63.2
208.6
750
1000
39.6
186.1
750
1000
28.2
146.6
750
1000
18.1
115.8
750
1000
NITROBERG® 1300 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
212.9
489.7
1500
2000
186.1
428.0
1500
2000
141.6
368.2
1500
2000
118.9
344.8
1500
2000
89.5
295.4
1000
1500
50.0
235.0
1000
1500
38.1
198.1
1000
1500
26.2
167.7
1000
1500
NITROBERG® 1400 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
304.9
701.3
2000
3000
267.3
614.8
2000
3000
209.9
545.7
2000
3000
181.7
526.9
2000
3000
126.7
418.1
1500
2000
73.4
345.0
1500
2000
55.4
288.1
1500
2000
37.6
240.6
1500
2000
NITROBERG® 1500 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
367.3
844.8
3000
4000
319.8
735.5
3000
4000
239.6
623.0
3000
4000
198.9
576.8
3000
4000
149.5
493.4
2000
3000
88.7
416.9
2000
3000
66.9
347.9
2000
3000
45.8
293.1
2000
3000
NITROBERG® 1600 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
441.2
1014.8
4000
6000
382.9
880.7
4000
6000
287.5
747.5
4000
6000
238.6
691.9
4000
6000
179.6
592.7
3000
4000
106.5
500.6
3000
4000
81.8
421.7
3000
4000
55.1
352.6
3000
4000
NITROBERG® 1700 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
536.8
1234.6
4000
6000
462.4
1063.5
4000
6000
346.5
900.9
4000
6000
288.2
835.8
4000
6000
224.6
741.2
3000
4000
128.4
603.5
3000
4000
94.9
493.5
3000
4000
64.4
412.2
3000
4000
NITROBERG® 1800 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
694.9
1598.3
5000
8000
606.8
1395.6
5000
8000
459.6
1195.0
5000
8000
378.8
1098.5
5000
8000
295.8
976.1
3000
6000
167.2
785.8
3000
6000
122.6
637.5
3000
6000
85.1
544.6
3000
6000
NITROBERG® 1900 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
894.6
2057.6
6000
9000
777.4
1788.0
6000
9000
575.7
1496.8
6000
9000
478.6
1387.9
6000
9000
359.7
1187.0
4000
9000
213.8
1004.9
4000
9000
161.6
840.3
4000
9000
109.8
702.7
4000
9000
NITROBERG® 2000 N2, Nm3/h
Comp.air, Nm3/h
Product vessel (l)
Comp.air vessel (l)
1057.7
2432.7
6000
10000
921.1
2118.5
6000
10000
689.4
1792.4
6000
10000
572.8
1661.1
6000
10000
435.3
1436.5
4000
10000
259.8
1221.1
4000
10000
192.6
1001.5
4000
10000
133.6
855.0
4000
10000

*For larger sizes and special requests, please contact us. The price quote is available on request.

 

-Food and Beverage Applications; Nitrogen gas is a popular gas in the food industry. It is used in order to prolong the shelf life of food packages in a healthy manner and to protect them from microorganisms or to protect the fluid raw material during production. Moreover, as nitrogen gas cannot be metabolized and adsorbed by microorganisms, they protect the existence in the environment and the creation of a vacuum environment inside the package is prevented. Dry nuts, chips, confectionary, coffee, tea and dried foods are among the examples to be given in this field.
Food Gas, As different than packaging dry nuts, food gas applications use nitrogen gas produced in the generator to mix with CO2 and to send to the packages. Due to the bacteriostatic and fungal static properties of CO2 gas, microorganisms are prevented from developing on products such as meat, chicken and dairy products which have been subject to advanced procedures. This practice is used for packaging products such as pastry, chicken-meat which have undergone advanced procedures, milk and dairy products, ravioli, sausages-salami.
Blanket – Fruit Juice and Carbonated Beverages, Blanket applications are mostly used at fruit juice and carbonated beverage packaging facilities. Nitrogen is used to remove the oxygen inside the packaged bottle and a modified atmosphere is created as a result. This way, product’s shelf life is also prolonged. 
Production, While transferring fluid raw materials such as hot cacao, nitrogen gas is given to prevent burning or spoiling as a result of contact with oxygen in the pipeline. This way, whilst production continues without any raw material loss, transfer of the fluid is supported as a driving power.

 

- Vegetable Oils Applications;  Atmospheric oxygen causes a chemical reaction when fatty acid attacks triglyceride molecules. Oxygen and humidity is removed from the environment thanks to nitrogen gas practices and oil’s structure is preserved.

BlanketNitrogen gas creates an inert atmosphere inside the storage tanks and ensures that the oxygen and humidity is removed. Products remain stable and they are stored in a humid free environment without changing the amount of acidity and the taste does not change. The pressure of the nitrogen gas compressed into blanket tanks is increased to help with the transfer of the oil.

Line and Bottle Cleaning and DryingDue to the hygiene requirement in food processes, this application type that is constantly applied keeps equipment and pipelines free of any microbiological contamination and oxygen increase (rust) and they are swept with compressed nitrogen gas for this purpose.  Before oil is filled, bottles are filled with dry and clean nitrogen to remove any gas and dusts inside the bottle. This way, oxidization reactions are prevented. After the bottles are filled, the space left at the top is filled with nitrogen gas.

 

- Oil and Gas Applications and power plant applications; These plants which are generally established at those locations far away from the cities need nitrogen gas where İdeal Makina provides significant advantages by offering these plants the possibility to generate their own gas “on-site”. Blanket is created on demineralized water tanks with nitrogen gas and water’s conductivity is prevented from increasing. Nitrogen gas is used to ensured that the mechanical seals of turbo compressors are leakproof. Nitrogen gas is used to wash and prevent corrosion and rusting when the boilers and pipelines are not in use. In order to calculate the calorific value of raw materials such as coal before they burn accurately and to purify them of other factors such as humidity and oil, nitrogen gas is used.

 

- Laser Cutting industry Applications; Nitrogen gas, which is used in the laser cutting industry to capture a quality cutting surface, is used to remove oxidation due to its inert gas feature and to remove burrs under the machine by means of pressure.
CO2 Laser Machines, In CO2 laser machines, the generation of the laser beam is based on a CO2-weighted gas mixture. While nitrogen gas is used to clean the particle, other gas and water vapor in the beam path inside the bench, it also acts as a cooler. In addition, thanks to the pressurized nitrogen gas, oxidation and similar reactions can be prevented during cutting and slag formation is not observed on the cutting surface. CO2 benches can cut thicker and harder metals than other types thanks to nitrogen.
Fiber Laser Machines, Fiber laser cutting machines have become widespread in recent years. These machines, which are faster than CO2 machines, process relatively thinner metals. Since the laser beams are carried via fiber cables, there is no need for beam path cleaning. Pressurized nitrogen gas is transmitted directly to the cutting area, resulting in an increase in cutting quality. Another advantage of nitrogen gas is that it provides faster cutting compared to other gases thanks to its thrust force.
No oxidation appears on the cutting surface when cutting with nitrogen gas in Stainless Steel. But nitrogen gas must be of high purity. The high purity nitrogen gas produced with NITROBERG® Generators guarantees bright and burr-free cutting surfaces.
Since aluminum sheet is softer than other sheets, the oxygen present in the environment during cutting causes yellowing of the cutting surface. In addition, the cutting surface is cooled by using nitrogen gas during cutting and burrs on the surface are prevented.

 

- Electronics and Communication industry Applications; Nitrogen gas is used within the electronics and communication industry to prevent oxidation by ensuring an oxygen-free environment during the assembly of circuit cards, packaging and soldering procedures and it ensures superior quality products are obtained. Nitrogen gas ensures that several errors are eliminated.
Lead-free Solderingnitrogen gas is used to eliminate a number of errors. It is possible to prevent the oxidation layer on metal surfaces. The resistance of joint points of the solders are increased. Less clinker is accumulated on the surfaces where the procedures take place. One of the most important mistakes which causes Head-In-Pillow problem can be prevented. And together with all of these advantages, workmanship costs are reduced for production.
Soldering After Remelting, Nitrogen gas is used inside remelting ovens to reduce a number of errors. It is possible to prevent the oxidation layer on metal surfaces. Resistance of the joints on the solders are increased. Less clinker is accumulated on the surfaces where procedures take place. One of the most crucial mistakes, which is the Head-in-Pillow problem can be prevented via this method. 
Protective Atmosphere During Assembly, The nitrogen gas used during assembly allows lower procedure temperatures. Moreover, it ensures that the procedures can be done with ease and allows the creation of a wider process window.
Effective Production with NITROBERG®, BERG reduces the rate of erroneous production within solder ovens thanks to the systems that it establishes with German BERG GaseTech Nitrogen Generators. One of the primary errors in this sense is called Head-In-Pillow error. Highly pure nitrogen gas prevents these errors and production becomes more effective. In general, it is possible to save time, temperature and costs during production.

 

- Pharmaceutical Applications; 
- High pressure nitrogen gas is used to ensure that the chemical products are carried from one tank to the other in a safe manner.
- The equipment used during production and for analytical assays may be cleaned by purging with nitrogen gas to remove the oxygen and water vapour within process lines.
- Blanket with nitrogen prevents contamination from the air such as humidity and bacteria, creates an inert atmosphere, protects the products and prevents any lumps to be formed.
- Nitrogen gas is used to manufacture API (Active Pharmaceutical Ingredient) and to manufacture final drug products. It is used to create the appropriate atmosphere during sterile packaging and during filter control tests.

 

- Chemicals industry Applications; Nitrogen gas is most commonly used within the chemicals industry during the inertization, sweeping and blanket procedures of flammable and explosive chemicals by preventing their contact with air or oxygen.
BlanketingDuring tank blanketing, nitrogen is frequently used to reduce the risk of burning highly flammable materials, to prevent the oxidation of the materials that are stored and to eliminate product losses which occur as a result of vaporization. Moreover, it is also used to protect the chemicals from other factors coming from the air such as humidity and particles and to prevent the harmful vapor from spreading into the atmosphere air that we breathe.
Transfer, High pressure nitrogen gas is used to transfer chemical products from one tank to another tank in a safe manner.
Sweeping, Nitrogen is used to remove atmosphere residue oxygen and humidity found in procedure areas such as tanks, silos and pipelines in a safe manner. Sweeping procedure protects procedure areas from contamination and chemical reactions.
Production, Practices such as drying and mixing processes which cause oxidation reactions in chemical production areas can be taken under control with an atmosphere comprised of nitrogen.


-Application of nitrogen in tires and aviation;
When nitrogen is used in tires, vehicle tires are filled with high-purity nitrogen, which contains a gas mixture of nitrogen, oxygen and trace elements, instead of normal air. This process is facilitated by on-site nitrogen generators when tires are filled with nitrogen.