We know that oxygen accounts for 65 percent of a person's body weight. Yes, oxygen is essential for respiration, which is the process of converting carbohydrates into energy. In fact, oxygen is required by every cell in our body. When we inhale, oxygen molecules enter our lungs and move through the lung walls to our circulation.
One method of delivering oxygen is by liquid medical oxygen (LMO). LMO is a type of high-purity oxygen produced specifically for use in the human body and in medical therapy.
The most common method of production is oxygen separation in Air Separation Units, or ASUs. Large-scale gas separation plants, or ASUs, are what they are. They use fractional distillation to create pure oxygen from atmospheric air, which is mostly nitrogen and oxygen (78 percent nitrogen, 21 percent oxygen, and 1 percent additional gases such as argon, carbon dioxide, neon, helium, and hydrogen). This procedure entails separating gases from the air into discrete components, cooling them to a liquid state, and then extracting liquid oxygen from the mixture.
At the Oxygen fraxinella, pressure swing adsorption (PSA) technology is used to ensure an unbroken and uninterrupted supply of pure oxygen. PSA technology is used to create low-maintenance oxygen gas plants that produce the required results with less effort. PSA oxygen generator plant can also be a small-scale device that concentrates oxygen from ambient air, with output capacities ranging from 2 Nm3/hr to 200 Nm3/hr according on calculated oxygen demand. To extract oxygen from other gases, such as nitrogen, zeolite molecular sieves are used in the oxygen gas generation process. Two towers are equipped with zeolite molecular sieves that capture nitrogen before releasing the garbage. PSA plants are gaining popularity in India because they include in-house oxygen control, which eliminates the need for cylinder handling and outsourcing.
A MGPS is required for Liquid Medical Oxygen (LMO). In a hospital setting, a safe, open, and unrestricted space. It also necessitates the construction of a storage tank, which requires a PESO licence and third-party supply. It also recommends having a backup oxygen supply of 1 to 2 days via cylinders as a best practice (Reserve).
You can count on a steady supply of oxygen from the PSA oxygen plant. This means you can make oxygen anytime and anywhere you want, in any quantity or quality you choose. You won't have to wait for external vendors or pay exorbitant fees for your O2.The cost of liquid oxygen is higher than the cost of compressed gaseous oxygen. PSA systems can produce medical oxygen on-site at any hospital, clinic, or health care facility. Air is the most important input in PSA systems for producing oxygen.
Oxygen is a necessary drug at all levels of the health-care system; patients should only be given high-quality, medical-grade oxygen. Plants that generate oxygen by pressure swing adsorption (PSA) are a source of medical-grade oxygen. This paper specifies the technical parameters that a PSA Oxygen Plant must achieve in order to be used for the delivery of medical-grade oxygen. PSA systems offer a cost-effective and dependable separation and purification solution for a wide range of industrial gases. Capacity ranges from a few hundred Nm3/h for small plants to over 400,000 Nm3/h for big scale operations. These PSA systems are appropriate for a wide range of applications in the refining, petrochemical, iron/steel manufacturing, and mining industries. Thermal swing adsorption works by heating the adsorbent and purging it. Pressure swing adsorption involves regeneration, which is accomplished by lowering the total pressure in the bed and, in most cases, purging.
PSA is a process that separates contaminants from an input gas mixture in order to generate a single product gas such as hydrogen, oxygen, or nitrogen. PSA is commonly found in refineries, air separation units (ASUs), ethylene factories, and ethanol manufacturing plants. PSA equipment is frequently mounted on skids, which allows it to be tested off-site before being brought to the factory or facility for installation. Control valves appropriate for PSA applications include globe and rotary (butterfly) valves. Each should have features built expressly for stringent leakage requirements and quick cycling.
A PSA system's functionality and efficiency are dependent on control valves. The incorrect valves can lead to costly maintenance issues, and underperforming valves can reduce process efficiency, costing a refinery millions of dollars per year. To guarantee that the best valves are selected for this tough application, selecting the correct control valve for a PSA application should be done in collaboration with the valve manufacturer. For control valves, the PSA unit is a rigorous process. The PSA unit's continuous production and operation scheme necessitates an extraordinarily high number of cycles, which might have a negative impact on PSA process equipment. The excessive number of cycles can cause problems with mechanical equipment in terms of production and maintenance.
Medkav products are well recognised and respected in medical institutions all over the world. We work with reputable domestic and international vendors. Because of their technological superiority, high reliability, and competitive performance-price ratio. We provide timely and courteous service, a team of professionals with different skills to assist our clients in resolving a wide range of service difficulties at reasonable pricing, and a dedicated single point of contact account manager for each client. We sell, service, and manufacture a wide range of home-use oxygen generators and concentrators.
We provide Medical Oxygen Systems with AII in One, a space-saving, all-in-one oxygen generation system:
• A compressor for compressed air
• A central air conditioner
• Recipient of an Air Award
• Generator of oxygen
• Recipient of Oxygen
• Analyzer of Oxygen Concentration
• An oxygen flow metre is a gadget that measures the amount of oxygen in the air.
• Bacterial Filter with High Efficacy
• Remote Monitoring Station
In India, we provide cutting-edge 3rd and 4th generation advanced PSA technology to hospitals, community clinics, healthcare centres, veterinary institutions, and the aquaculture industry. We offer a wide range of oxygen generators and home oxygen concentrators that we distribute, sell, service, and manufacture.