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Best PSA Nitrogen Generation Plant in Greater Noida | CBS

PSA Nitrogen Generation Plant – How It Works Have you ever wondered how a PSA Nitrogen Generation Plant works? If so, you’re not alone! This technology has been used for decades to produce nitrogen gas from the air we breathe. In this blog post, we’ll take a closer look at the step-by-step process of how a PSA Nitrogen Generation Plant operates and how it can benefit your business. We’ll also look at some of the advantages of using a PSA Nitrogen Generation Plant and how it can help you cut costs. So, let’s get started and learn about PSA Nitrogen Generation Plants! What is PSA in Nitrogen Plant ? PSA, or Pressure Swing Adsorption, is a technology used by CBS Energy to generate nitrogen gas. In a PSA Nitrogen Plant, two adsorbent vessels are used in a cycle. One vessel is under high pressure and absorbs oxygen molecules from the atmosphere while the other vessel is depressurized and releases nitrogen molecules. This cycle is repeated to produce nitrogen gas with high purity. CBS Energy also provides a range of PSA oxygen plants that use the same technology to generate oxygen. What is Difference between PSA and VPSA Oxygen plant ? The main difference between PSA (Pressure Swing Adsorption) and VPSA (Vacuum Pressure Swing Adsorption) oxygen plants is the pressure at which the gas is separated from the air. PSA works at atmospheric pressure, while VPSA operates under a vacuum. In a PSA oxygen plant, the air is compressed by a compressor and then passed through zeolite beds. Zeolite is an absorbent material that traps nitrogen molecules due to its micro-porous structure. The oxygen molecules are then left to pass through, creating a stream of high-purity oxygen. On the other hand, in a VPSA oxygen plant, the air is subjected to a vacuum and then passed through two or more zeolite towers. Nitrogen is drawn out of the air and compressed, while oxygen is allowed to pass through the towers. This process requires less energy, compared to the PSA oxygen plant. The quality of the oxygen produced by both PSA and VPSA plants is identical, and both are used in many industries including medicine, steel making, and food production. The cost of a VPSA plant is generally higher than a PSA plant due to its increased complexity. At CBSEnergy, we provide customized solutions based on your specific needs to ensure you get the best outcome from your nitrogen and oxygen generator. What is application of PSA Nitrogen Oxygen plant ? PSA Nitrogen Generation  plant technology is widely used in many industries due to its cost-effectiveness and high efficiency. It is used in industrial, medical, and scientific applications, such as supplying oxygen to hospitals and laboratories. PSA plants are also used to produce nitrogen for food packaging, medical treatment, and various other industries. In addition, it is commonly used in automotive industries for the purification of exhaust gases. Moreover, PSA plant technology is used for air separation and to recover valuable products from natural gas, such as hydrogen and carbon dioxide. At CBS Energy, we offer a wide range of PSA Nitrogen Generation plant solutions for industrial applications such as air separation, production of oxygen, nitrogen, carbon dioxide, argon and hydrogen, oil and gas refining, food packaging, and medical treatments. Our experts will design a PSA plant tailored to your exact requirements, providing the best quality product at the most competitive price. We are committed to delivering innovative solutions with exceptional customer service, ensuring your business runs efficiently. What is Advantage of PSA Nitrogen Plant ? One of the major advantages of using a PSA Nitrogen plant is the cost savings it can offer. With its modular design, users have the flexibility to choose from a wide variety of options that are suited to their specific requirements. A PSA nitrogen plant from CBS Energy can also be used for onsite oxygen production, eliminating the need for costly transportation and storage of oxygen. Additionally, with their advanced technology, these plants are highly energy efficient, helping to reduce carbon emissions. Furthermore, PSA plants offer a higher purity of nitrogen gas compared to traditional methods and are more reliable and easier to maintain. With all these advantages, it’s no wonder that PSA nitrogen plants are gaining popularity across the world. For those who want to know how this process works, here’s an overview of the steps involved in generating pure nitrogen. What is PSA in Instrumentation ? PSA stands for Pressure Swing Adsorption, a technology that is used to create clean, pure gases from an impure source. This technology is commonly used in instrumentation and industrial processes. Pressure swing adsorption (PSA) works by using specialized filters and adsorbent material that separate the impure gas from the pure gas through absorption. The pressure swings between high and low allow for the adsorption of the impure components while the pure gas passes through. The PSA process is an efficient way to create clean gas on demand. It requires minimal energy usage and has no emissions, making it an ideal choice for environmentally conscious businesses. CBS Energy provides comprehensive PSA solutions with reliable, high-quality nitrogen generators and oxygen generators that are designed to meet the most stringent requirements. With over 20 years of experience in PSA technology, CBS Energy can provide customized solutions for your instrumentation needs. What is Inside of PSA Tower ? A Pressure Swing Adsorption (PSA) tower is a key component of any PSA system, and it is responsible for providing the required pressure for adsorption to take place. Inside a PSA tower are two or more columns filled with a desiccant material, such as zeolite or carbon molecular sieve. As air passes through the tower, the desiccant material absorbs molecules of oxygen and nitrogen, leaving behind a stream of 99.99% pure nitrogen gas. CBS Energy offers a range of PSA towers that can be customized to your specific needs. Our towers are designed to provide high performance in order to deliver the desired

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Oil Handling Equipment

Oil Handling Plant – Package on offer

By CbS | 08-Jun-2021 | Oil Handling Plant – Package on offer Oil Filtration is not the only solution to increase the life span of the oil, but the right selection of machines could even provide the better results in terms of investment and the ROI. So, keeping this in mind we have created a package of Oil Handling Plant in which we have included: Oil Handling Plant – Package on offer Oil Filtration Machine Regenerative Air Dryer Evacuation System Oil Transfer System Oil Storage Tank Oil Filtration Machine:   We are providing the wide range of Oil Filtration Machines among which we have already told about range of Transformer Oil Filtration Machine in our previous blog. Rest we will cover in upcoming blogs for that stay connected. Regenerative Air Dryer:   In heavy-duty industrial operations, water vapor in compressed air equipment can lead to premature failure, corrosion, frozen air lines, quality control issues and a range of other operational problems. A regenerative desiccant air dryer system purifies compressed air by absorbing moisture. Regenerative desiccant dryers are generally of a twin-tower construction, with each tower containing its own desiccant bed. This allows one bed to dry compressed air as the other undergoes regeneration.The air dryer on offer is equipped with: The valve switch with automatic display function. Automatic alarm device, fault alarm. High quality adsorbent. Reliable performance check valve, silencer, pneumatic valve and diffuser. Evacuation System:      It is plug and play device specially designed with combination of the highly efficient pumping system of a vacuum pump and mechanical booster pump which can handle large volume of moisture in transformer’s tank. The system comprises of vacuum pump, motor, separator, gauges, valves and piping. The whole system is placed on the movable base.  Oil Transfer System:  Oil transfer systems are used in range of commercial and industrial applications to transfer oil to the boilers, process equipment or generators. The system is portable and easy to operate.  Oil Storage Tank:  For a complete solution we are also providing a comprehensive range of Oil Storage Tanks that are designed to meet the demands of various applications in different industry. Manufactured using high grade raw material, these tanks are acknowledged for their leak proof property and longer shelf life.

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Transformer insulating oil

Some Tests and Their Values for the Transformer / Insulating Oil

By CbS | 26-May-2021 | Some Tests and Their Values for the Transformer / Insulating Oil Used Oil (Left) Filtered Oil (Right) Appearance The fresh transformer / insulating oil should be clear and free from the suspended or dissolved matter. The transformer oil should be visibly clear with no impurities in service. Any sludge deposit below 0.02% by mass can be overlooked.  Some Tests and Their Values for the Transformer / Insulating Oil The oil should be free from free water, it present, then it is the sign of dissolved water reaching oil’s saturation point. The PPM or the moisture level in new oil should not be greater than 20 PPM, but can go upto 30 PPM in service if greater than this indicates that the inner paper insulation is also having moisture. Breakdown Voltage The BDV (Break Down Voltage) of the oil should be 30 kV or slightly more but can be reduced with in-service oil. Acidity The highest value for new oil is 0.03 mg KOH/gm but with usage, this value can go up to 0.05 mg KOH/gm.

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Transformer oil filtration

A complete solution for Transformer Oil Filtration – by CbS Technologies, A Indian Manufacturer

By CbS | 26-May-2021 | A complete solution for Transformer Oil Filtration – by CbS Technologies, A Indian Manufacturer In order to keep your transformer in a great working condition along with low operating or maintenance cost we “CbS Technologies Pvt. Ltd.” a India based Transformer Oil Filtration Machine manufacturer having more than 15 years of experience in manufacturing of Industrial Oil Filtration Machines brings you a complete solution for Transformer Oil Filtration along with the additional accessories for your transformer which will not only lower the maintenance cost but also the operation cost. A complete solution for Transformer Oil Filtration – by CbS Technologies, A Indian Manufacturer   CbS having in-house Research and Development team which is working in technical support with the Bhabha Atomic Research Centre (BARC), Defence Research and Development Organisation (DRDO), IIT-Delhi and IIT-Varanasi for continuously developing new technologies and methods for effective ways to deal with the oil contaminants along with maintaining the oil parameters to its original. Transformer Oil Filtration As we have already told and discussed about the advantages related to the filtration of transformer oil in our previous blog. (Transformer Oil Filtration – is it good or bad?) So, not going much in detail for the same, let us begin…

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High Tech Defence

High-Tech Defence Innovation Forum Meeting

By CbS | 26-May-2021 | High-Tech Defence Innovation Forum Meeting Mr. Sunjay K A, MD CbS Group, Guest Speaker at High-Tech Defence Innovation Forum Meeting. High-Tech Defence Innovation Forum Meeting Mr. Sunjay K A, MD CbS Group, Guest Speaker at High-Tech Defence Innovation Forum Meeting. He talks on “Role of MSME companies in reducing imports. He highlighted the strength of MSME companies to develop import substitution products over the large companies.  By adopting a simple and easy structure for setting up of new enterprises in order to promote entrepreneurship across the country. CbS Technologies is also a member of MSME. This is the fifth meeting of the Forum on Hi-Tech Defence Innovation organized by IDSA.  The Forum is discussing the gaps in capabilities and recommend essential reforms and partnerships required to develop a robust national innovation system in India. Mr. R.k Tyagi, Chairman HAL, Shri Rahul Chaudhary, CEO, Tata Power SED, Admiral Verma CMD, GRSE, and many more people also participated.

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organic waste to compost machine

Second Generation Organic Waste Composting Machine – What makes it different from the conventional one

By CbS | 26-May-2021 | Second Generation Organic Waste Composting Machine – What makes it different from the conventional one? We here at Cbs along with manufacturing of Filtration Machines for Industrial Oil also offers a wide range of Organic Waste Composting Machine which comes under our second manufacturing division which is Waste Energy Equipment Division under which we manufacture Bio Toilets, Mobile Toilet Van,  with lots of modern and easy to use technologies. Second Generation Organic Waste Composting Machine – What makes it different from the conventional one? We have developed something new and totally different from the conventionalOrganic Waste Composting Machine (OWCM), which we are calling . But before going into deep about  let us know about conventional OWCM.  Conventional Organic Waste Composting Machine  (OWCM)  machine consists of Crusher / Shredder, a composting tank, heating system (could be thermo-pad, ceramic, thermic oil, etc.), blower unit, gear system and a control panel. This machine takes upto 24 hours for processing the organic waste into compost, the process includes the continuous heating of the shredded waste inside the composting tank upto a prescribed limit. This means the heating system will always have to be on electricity which increases the power consumption but also the operational cost of the machine which is the major drawback of the conventional OWCM.

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Hydraulic Oil

Contamination in Hydraulic Oil? We got a solution

By CbS | 26-May-2021 | Contamination in Hydraulic Oil? We got a solution Hydraulic oil is a sensitive mineral based oil and is used widely in the manufacturing units to transfer power in hydraulic machinery. However, hydraulic oil is also responsible for lubrication, cooling, sealing and removing contamination and wear materials. Contamination in Hydraulic Oil? We got a solution  The three most common varieties of hydraulic oils found on the market today are petroleum-based (mineral) oil, water-based oil and synthetic oil. Biodegradable oils are becoming increasingly important. Petroleum-based oils are made by refining crude oil to a desired level. Additives are added to improve lubricant performance. These oils offer a lower cost alternative to other oil types and performance is often adequate. Water-based oils are the least common of the fluid types. These fluids are typically required where there is a high probability of fire. They are more expensive than petroleum but less expensive than synthetics. While they offer good fire protection, they do lack wear-protection abilities. Synthetic oil is a man-made chain of molecules that are precisely arranged to provide excellent fluid stability, lubrication and other performance-enhancing characteristics. These oils are great choices in challenging conditions (such as very high or low temperature), however they can have disadvantages such as high cost, toxicity and potential incompatibility with certain seal materials. Demand for equipment operators to use biodegradable oils has increased recently with concern for the environment. However, these oils are still costly and suffer from technical issues such as difficulty in avoiding contamination with mineral oils as well as compatibility with seal material. Types of contamination Contamination in hydraulic systems can be classified into particle contaminants (Metal particles from wear, dirt ingression) or chemical contaminants (water, air, heat, etc). Examples of damage from contamination are: accelerated component wear, orifice blockage, formation of rust or other oxidation, depletion of additives, formation of other chemicals, oil degradation. Particle contaminants Particle sizes are generally measured in micrometers or microns. Some examples of microns: Grain of salt 100 microns, human hair 70 microns, lower limit of visibility 40 micron, milled flour 25 micron, average bacteria 2 micron. Note that most damage-causing particles in hydraulic or lubrication systems are smaller than 14µm micrometres, so they cannot be seen. Chemical contaminants Water The most common chemical contaminant in hydraulic systems is water. The presence of water in hydraulic oil can have wide-ranging effects on system components because of its effect on the physical and chemical properties of hydraulic oil. Rust in tanks, reduced lubrication characteristics resulting in accelerated metal surface wear are some of the most obvious physical results of excessive water, however the effects could be as diverse as the jamming of components due to ice crystals at low temperatures. Chemical effects include additive depletion or deposition, oxidation, unwanted reactions which can result in the formation of acids, alcohols or sludge. Oil becomes cloudy when it’s contaminated with water above its saturation level. The saturation level is the amount of water that can dissolve in the oil’s molecular chemistry and is typically 200 to 300 ppm at 20°C for mineral hydraulic oil. SKF state that hydraulic oil containing just 0.1% water by volume cuts bearing life in half, while 1% reduces bearing life by 75%. Air Air in a hydraulic system can exist in either a dissolved or entrained (undissolved, or free) state. Dissolved air may not pose a problem, providing it stays in solution. When a liquid contains undissolved air, problems can occur as it passes through system components. There can be pressure changes that compress the air and produce a large amount of heat in small air bubbles. This compressibility of air means that control of the system is lost. Air bubbles and frothing in the oil reservoir can cause major damage to pumps or it can also cause oil to “boil” out of the tank.   Heat Excessive heat in hydraulic systems can also result in additive depletion or chemical changes to the oil. How we can increase the life span of the Hydraulic Oil  While using hydraulic oil we often face problem in maintaining the NAS Level in the Hydraulic System. This can be due to presence of dusty environment and also because of internal wear and tear. Where as manufacturer of Hydraulic oil commit NAS level between 5-10, but as soon as the new barrel is opened the NAS level raise to above 10. The issue of mixing of moisture due to water/coolant leakage in the system and also due atmospheric condition is also common. CbS with its Hydraulic Oil Filtration Machine, provides complete solution to this condition  of oil by pre-heating the oil and treat under vacuum dehydration leaving the oil moisture without affecting the chemical properties of the oil. CbS provides closed loop circulation of oil through series of high Beta Ratio Cartridge filter that enhance the quality of oil NAS 5 and below.

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Care & Maintenance of Quenching Oil

Care & Maintenance of Quenching Oil

By CbS | 26-May-2021 | Care & Maintenance of Quenching Oil What is Quenching? Quenching is a critical part of the manufacturing process for a heat-treated part. The oil used for the heat treatment is quenching oil. We are going to understand about the common issues with quenching oil including contamination and filtration methods. Care & Maintenance of Quenching Oil Quenching is a critical part of the manufacturing process for a heat-treated part. The oil used for the heat treatment is quenching oil.  We are going to understand the common issues with quenching oil including contamination and filtration methods. Contamination in Quenching Oil Quenching oil can be divided into several categories, depending on their functional characteristics. Two such characteristics are quenching rate and operating temperature.

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Bio Toilet - Working and Advantages

Bio Toilet – Working and Advantages

By CbS | 26-May-2021 | Bio Toilet – Working and Advantages Bio toilet disintegrates and decomposes the human waste into water and biogas. The decomposition is carried out by bacteria in  the Bio-digestion tank. Bio-toilets are environment-friendly and reduces the sewage problem and also reduces  the water consumption in the toilets. Bio Toilet – Working and Advantages Bio toilet disintegrates and decomposes the human waste into water and biogas. The decomposition is carried out by bacteria in the  Bio-digestion tank. Bio-toilets are environment-friendly and reduces the sewage problem and also reduces the water consumption in the toilets.  As traditional toilets requires 3-6 litres of flushing, but bio-toilet requires only .5 to 1 liters. Working of Bio Toilet Bio-toilets contains of two parts, one is the toilet cabin and other is the Bio Digester Tank. The toilet outlet is connected with digester tank. The bio digester tank is divided into multiple sections to process  the human waste in different stages.Once the human waste is flushed through the toilet, the waste goes into the bio digester tank.  The Anaerobic bacteria present in the bio digester tank starts to digest the human waste.  These anaerobic materials can withstand a long range of temperatures ranging from. . These anaerobic bacteria decompose the human waste into methane and water.  The Methane gas is sent through the vent, and the water can be treated for recycling usage. Advantages Bio-toilets have many advantages over traditional toilets. Below are the some of the advantages of bio toilets. Environment-friendly, almost zero waste discharge to the atmosphere. It is a type of water efficient toilets. Can be installed anywhere. Installation requires comparatively small place. Bio-toilets can be used as a portable toilet. Low to no maintenance required. By products like biogas and water can be reused. What CbS is doing? CbS with support of technology, developed and approved by DRDO Ministry of Defence, India is manufacturing the Bio Digester Tanks of various capacities and construction material. And also converts the traditional toilet into bio toilet. You can visit our website to see our product range.

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