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Industrial Gases Projects

Industrial gas is a group of gases that are commercially manufactured and sold for uses in other applications. The most common industrial gases are:air gases - oxygen (O2), nitrogen (N2) and argon (Ar) rare gases - such as helium (He), krypton (Kr), xenon (Xe) and neon (Ne) and other gases like hydrogen (H2), carbon monoxide (CO), carbon dioxide (CO2) and nitrous oxide (N2O) ,chlorine (Cl2), hydrogen chloride (HCl) and sulphur dioxide (SO2) ,acetylene (C2H2), methane (CH4) and propane (C3H8).

In addition, there are many different mixtures of these and other gases to meet the needs of specific applications. The industrial and medical gases industry serves a very large number of customers in the whole community. Industrial gases are essential for almost all manufacturing. Large quantities of oxygen, nitrogen and argon are used in the steel and metal industry. Shipyards and the automotive industry use acetylene, propane, mixtures of fuel gases and oxygen for cutting and welding. Liquid nitrogen is vital in recycling plastics, packaging and scrap tyres. The chemical industry employs all major industrial gases as a raw material or for inerting. The other smaller market segment consists of cylinder gas and mixtures.

In India, there are presently over 300 small & medium size plants and approximately 25 large tonnage plants all over the country. These gases are supplied through pipelines to captive customers in adjacent factories; in cryogenic transport tanks for bulk deliveries to long distance customers; or filled in cylinders.

The present annual turnover of the gas industry, excluding captive production is about Rs. 3,000 crores ($650 million). With increased industrialization, the demand pattern of industrial gases is also changing fast. Modern application in the food processing industry, agro industries, healthcare and technology are growing at a tremendous pace. This has driven the industry to adopt stringent quality control systems and an efficient distribution network.

Major players in India include BOC India, INOX Air Products Ltd., Jindal Praxair Oxygen Co. Ltd., Air Liquide India Holding P.Ltd., Aims Industries Ltd etc.

The Indian gas industry is growing at an average rate of 12 per cent per annum during the last couple of years, with the industrial oxygen growing consistently at 15-17 per cent per annum. The growth of industrial gas industry can be easily forecast on the basis of projections of the steel and other metallurgical industry. Steel demand is seen rising by 10% in the fiscal year to march 2011, helped by higher spending on infrastructure will continue to drive growth of the gas industry.

Natural gas comprises 9 % of India's primary energy consumption and it will be 14% of energy mix by 2010. Demand for natural gas is also likely to increase at an average annual growth rate of 7.3%.Metals production and fabrication will continue to be the largest market for industrial gases, accounting for 31% of total demand in value terms in coming years. The second largest market will be the chemical processing/petroleum refining segment. The medical/healthcare market, though smaller in size, will be the fastest growing and record gains from the expansion of healthcare services in developing nations and rapidly increasing use of home healthcare respiratory therapies in advanced economics.

Hydrogen is gaining prominence and most companies are striving to develop technologies that can efficiently exploit the potential of hydrogen. Increased use of natural gas will create an opportunity for higher production of argon and carbon dioxide. The Industrial gas industry has a very bright future in the coming years.

How to prepare a Project Report on Industrial Gases Projects?

When you are preparing a project report on industrial gas, you need to have full knowledge of the industry. It is necessary to familiarize both global and local trends in the industry. Such trends include:

  • Gas market size
  • Future of the gas industry
  • Gas market drivers
  • Legal requirements for oil, gas, and minerals
  • Raw materials, equipment, and human resource requirement
  • Financial requirements

 

Industrial Gas Market

The industrial gas market grows by about 6.9% annually. The largest global consumer of industrial gas is the Asia Pacific. One of the drivers of industrial gas market growth is the steady growth in industrial markets in India and China.

India has over 300 small-scale and medium gas manufacturers, with over 25 large-scale industrial gas and industrial gas cylinder manufacturers. The demand for industrial gas increases proportionally with an increase in the level of industrialization.

Other drivers of the industrial gas industry include modern applications of industrial gas in:

  • Food Processing Industries
  • Agro-based Industries
  • Healthcare and Technology

All these sectors are on a growth trend. The growth in these sectors has raised the need for the industrial gas sector to embrace strict quality control systems and efficient gas distribution mechanisms.

The average annual growth rate for the Indian industrial gas market is about 12%. Similar to global trends, the demand for oxygen in India grows at 15 – 17% p.a. 

Considering the steady growth in the steel and other metal industries, the future demand for industrial gas is still promising. Metal production and fabrication are the largest markets for industrial gases. There is also a rapid growth in the medical field, suggesting continuous demand for oxygen by these sectors.

Things to know while preparing a Feasibility Study report on the Gas Industry

There are various things that you need to know while preparing a feasibility study report, these are-

1. What is a Feasibility Study?

A feasibility study report on the gas industry is usually a continuation of the pre-feasibility study. You only do a feasibility study if the pre-feasibility study gives your project idea a feasibility approval.

2. What is the objective of a Feasibility Study?

Assume you thought of a business idea in nitrogen gas production. To determine whether such a project has a chance to survive under the currently prevailing circumstances, you did a pre-feasibility study. The pre-feasibility study report suggests nitrogen manufacturing is a viable business.

Knowing that an investment in nitrogen can survive the market does not give you a justifiable reason to put your money in nitrogen gas. You need detailed information about it that can help you clarify and address concerns about the industrial gas product.

In summary, as a prospective investor in industrial gas, you need to prepare a feasibility study report on the gas industry to make a final decision about investing in the sector.

3. What does a Feasibility Study contain?

The feasibility study report consists of:

  • Technical project feasibility.  It considers the required facilities, the suitability of gas production technology, site suitability, and raw materials.
  • Financial feasibility. This feasibility study considers the comparative costs of different industrial gas alternatives.
  • Managerial feasibility proposes a workable business structure and management team.

Types of Industrial Gas

Industrial gases are gaseous at room temperature. However, they may be compressed and sold as liquids. We can group industrial gases into three types. The three types are oxidizers, inert gases, and flammable gases.

1. Oxidizers

The common oxidizers include oxygen, chlorine gas, and nitrous oxide. Oxidizers are non-flammable gases that accelerate combustion in the presence of an ignition source and fuel.

2. Flammable Gases

Flammable gases include a group of industrial gases that, at ambient temperature and pressure, form a Flammable gas mixture with air. Common Flammable industrial gases include ammonia, acetylene, hydrogen, propane, propylene, and methane. All flammable gases are hazardous and should handle them with care. They should be stored under low temperatures and away from potential sources of fires or electric sparks.

3. Inert Gases

Industrial gases that fall under the category of inert include argon, neon, and helium. These gases do not undergo any chemical reactions under normal conditions of temperature and pressure. Because of its low solubility in liquids, oxygen plant manufacturers mix helium with oxygen to make breathing gas.

Both helium and argon create a gas shield in welding arcs. On the other hand, neon is a component of neon light with which we are all familiar.

 

 

Reasons for buying our reports:

This report helps you to identify a profitable project for investing or diversifying into by throwing light to crucial areas like industry size, market potential of the product and reasons for investing in the product

This report provides vital information on the product like its characteristics and segmentation

This report helps you market and place the product correctly by identifying the target customer group of the product 

This report helps you understand the viability of the project by disclosing details like machinery required, project costs and snapshot of other project financials

The report provides a glimpse of government regulations applicable on the industry

The report provides forecasts of key parameters which helps to anticipate the industry performance and make sound business decisions.

 

Our Approach:

Our research reports broadly cover Indian markets, present analysis, outlook and forecast for a period of five years.

The market forecasts are developed on the basis of secondary research and are cross-validated through interactions with the industry players

We use reliable sources of information and databases. And information from such sources is processed by us and included in the report

We can provide you detailed project reports on the following topics. Please select the projects of your interests.

Each detailed project reports cover all the aspects of business, from analysing the market, confirming availability of various necessities such as plant & machinery, raw materials to forecasting the financial requirements. The scope of the report includes assessing market potential, negotiating with collaborators, investment decision making, corporate diversification planning etc. in a very planned manner by formulating detailed manufacturing techniques and forecasting financial aspects by estimating the cost of raw material, formulating the cash flow statement, projecting the balance sheet etc.

We also offer self-contained Pre-Investment and Pre-Feasibility Studies, Market Surveys and Studies, Preparation of Techno-Economic Feasibility Reports, Identification and Selection of Plant and Machinery, Manufacturing Process and or Equipment required, General Guidance, Technical and Commercial Counseling for setting up new industrial projects on the following topics.

Many of the engineers, project consultant & industrial consultancy firms in India and worldwide use our project reports as one of the input in doing their analysis.

We can modify the project capacity and project cost as per your requirement.
We can also prepare project report on any subject as per your requirement.

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PSA Based Oxygen Plants

PSA plants takes free air form atmosphere and converts into oxygen with 93 % purity suitable for various purpose. The affinity of a fluid for a solid surface is known as adsorption. It is feasible to separate the individual components of a gas mixture (such as air) using the differential affinities of the distinct components. A PSA oxygen plant works on essentially the same premise. The capacity of such a plant to create oxygen varies. It uses a technique that absorbs nitrogen from the environment to concentrate oxygen for delivery to hospitals or industries, depending on the situation. The oxygen produced can be sent directly to the point of consumption through a dedicated pipeline or compressed to fill cylinders. The oxygen concentration in medical grade oxygen ranges from 90.0 to 96 percent. The rest is mostly made up of argon and nitrogen. They work at near-ambient temperatures and trap oxygen at high pressure using adsorbent materials such as zeolites, activated carbon, and molecular sieves. While the oxygen produced by these plants is said to be less pure than liquid oxygen created from cryogenic technology, the argument in the country right now is whether these plants may have helped alleviate the country's ongoing medical oxygen crisis. The Global PSA Oxygen Generator market is expected to grow at a CAGR of 6.6 percent from USD 2723.4 million in 2020 to USD 3996.3 million in 2026. Global "PSA Oxygen Generator Market" 2021-2026 Research Report includes essential analysis on the market state of the PSA Oxygen Generator manufacturers with the most up-to-date facts and figures, meaning, definition, SWOT analysis, expert views, and the most recent developments around the world. The market size, PSA Oxygen Generator Sales, Price, Revenue, Gross Margin, and Market Share, cost structure, and growth rate are all calculated in the report. The income produced by the sales of This Research and technologies by various application segments is taken into account in this report. Browse Market data Tables and Figures spread through 146 Pages and in-depth TOC on PSA Oxygen Generator Market. For basic understanding Plant Capacity * 3.3 = no of cylinders filled in a day i.e. 40 Nn3 plant will give @ 120 to 140 cylinders in a day
Plant capacity: 60 to 66 cylinders per dayPlant & machinery: 5500000
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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(PSA) Oxygen Plant

PSA plants takes free air form atmosphere and converts into oxygen with 93 % purity suitable for various purpose. The affinity of a fluid for a solid surface is known as adsorption. It is feasible to separate the individual components of a gas mixture (such as air) using the differential affinities of the distinct components. A PSA oxygen plant works on essentially the same premise. The capacity of such a plant to create oxygen varies. It uses a technique that absorbs nitrogen from the environment to concentrate oxygen for delivery to hospitals or industries, depending on the situation. The oxygen produced can be sent directly to the point of consumption through a dedicated pipeline or compressed to fill cylinders. The oxygen concentration in medical grade oxygen ranges from 90.0 to 96 percent. The rest is mostly made up of argon and nitrogen. They work at near-ambient temperatures and trap oxygen at high pressure using adsorbent materials such as zeolites, activated carbon, and molecular sieves. While the oxygen produced by these plants is said to be less pure than liquid oxygen created from cryogenic technology, the argument in the country right now is whether these plants may have helped alleviate the country's ongoing medical oxygen crisis. The Global PSA Oxygen Generator market is expected to grow at a CAGR of 6.6 percent from USD 2723.4 million in 2020 to USD 3996.3 million in 2026. Global "PSA Oxygen Generator Market" 2021-2026 Research Report includes essential analysis on the market state of the PSA Oxygen Generator manufacturers with the most up-to-date facts and figures, meaning, definition, SWOT analysis, expert views, and the most recent developments around the world. The market size, PSA Oxygen Generator Sales, Price, Revenue, Gross Margin, and Market Share, cost structure, and growth rate are all calculated in the report. The income produced by the sales of This Research and technologies by various application segments is taken into account in this report. Browse Market data Tables and Figures spread through 146 Pages and in-depth TOC on PSA Oxygen Generator Market. For basic understanding Plant Capacity * 3.3 = no of cylinders filled in a day i.e. 40 Nn3 plant will give @ 120 to 140 cylinders in a day
Plant capacity: 240 to 270 cylinders per dayPlant & machinery: 12000000
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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PSA Oxygen Gas Plant

PSA plants takes free air form atmosphere and converts into oxygen with 93 % purity suitable for various purpose. The affinity of a fluid for a solid surface is known as adsorption. It is feasible to separate the individual components of a gas mixture (such as air) using the differential affinities of the distinct components. A PSA oxygen plant works on essentially the same premise. The capacity of such a plant to create oxygen varies. It uses a technique that absorbs nitrogen from the environment to concentrate oxygen for delivery to hospitals or industries, depending on the situation. The oxygen produced can be sent directly to the point of consumption through a dedicated pipeline or compressed to fill cylinders. The oxygen concentration in medical grade oxygen ranges from 90.0 to 96 percent. The rest is mostly made up of argon and nitrogen. They work at near-ambient temperatures and trap oxygen at high pressure using adsorbent materials such as zeolites, activated carbon, and molecular sieves. While the oxygen produced by these plants is said to be less pure than liquid oxygen created from cryogenic technology, the argument in the country right now is whether these plants may have helped alleviate the country's ongoing medical oxygen crisis. The Global PSA Oxygen Generator market is expected to grow at a CAGR of 6.6 percent from USD 2723.4 million in 2020 to USD 3996.3 million in 2026. Global "PSA Oxygen Generator Market" 2021-2026 Research Report includes essential analysis on the market state of the PSA Oxygen Generator manufacturers with the most up-to-date facts and figures, meaning, definition, SWOT analysis, expert views, and the most recent developments around the world. The market size, PSA Oxygen Generator Sales, Price, Revenue, Gross Margin, and Market Share, cost structure, and growth rate are all calculated in the report. The income produced by the sales of This Research and technologies by various application segments is taken into account in this report. Browse Market data Tables and Figures spread through 146 Pages and in-depth TOC on PSA Oxygen Generator Market. For basic understanding Plant Capacity * 3.3 = no of cylinders filled in a day i.e. 40 Nn3 plant will give @ 120 to 140 cylinders in a day
Plant capacity: 180 to 200 cylinders per dayPlant & machinery: 9900000
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Demand in the Business of Oxygen Gas Plant (Industrial and Pharmaceutical Grade)

CO2 (gas at O0/1 matm. 1.429 g. /l, crit. pressure, 49.7 matm.) is a colourless, odourless, and tasteless gas that is somewhat heavier than air. It is one of the most active elements, and it is required for the respiration and combustion of living cells. Oxygen promotes combustion and helps combustible things burn faster. And because of this combustion-supporting feature, it is ideal for a variety of industrial applications. Oxygen is non-corrosive and can be found in virtually every metal. However, all oil, grease, and other flammable materials must be removed from pipelines and containers before placing them into oxygen service. Oxygen handling systems must also be built to safely tolerate the working pressure. Of course, inhaling gaseous oxygen has a tonic rather than harmful effect on the human system, and its tonic characteristics have led to various medicinal applications of oxygen. Liquid oxygen is transported in insulated cylinders, insulated tank trucks, and insulated tank cars as a cryogenic fluid. In most industrial operations, atmospheric air is used to produce oxygen and nitrogen. The components listed in the table below are mostly found in atmospheric air. Industrial quality Many materials, such as copper, brass, and stainless steel, benefit greatly from the presence of oxygen. For cutting and welding these materials, oxygen is frequently combined with a fuel gas. All major industrial gases are used as a raw material or for inerting in the chemical industry. Medical gases are recognised to have a significant environmental impact and to use significant resources in hospital administration. Because of their beneficial anaesthetic, analgesic, and respiratory qualities in the context of illness diagnosis, treatment, prevention, or relief, medical gases are crucial for adequate medical interventions in hospitals and health centres. • It is used extensively in medicine for therapeutic purposes, for suscitation in hypoxia, and in combination with other gases in anaesthesia. • It is also utilised in high altitude flying, deep sea diving, and as both an inhalant and a power source in the United States space programme. • Its vast range of industrial uses include metal cutting, welding, hardening, scaring, cleaning, and dehydrating using acetylene, hydrogen, and other fuel gases. Oxygen is the most popular industrial gas in India. Outside of carbon dioxide, oxygen accounts for almost 75% of total gas output in the merchant market. When the captive part is taken into account, oxygen accounts for more than 70% of all gases (outside carbon dioxide). India's gas sector features a huge number of minor units scattered across the country. There are also tonnage plants with international standards and capacities put up in various sections of the country. There are around 330 industrial gas plants in operation, with capacities ranging from 100 to 350 m3 per hour (2.5 to 8.5 tonnes per day). Small industrial customers, hospitals, and nursing homes are the primary customers of these facilities. Since the deregulation of the Indian economy, the industrial gases industry has undergone significant reform and modernisation, with a significant rise in capacity. Some of India's biggest companies are expanding their capacity or replacing ageing operations. The majority of the new plants are captive. These are quite large plants that use innovative technologies that were sourced from outside the country. These are backed up by a lot of money. Small and weak units are being marginalised as a result of the new growth and fierce competition. Thus, due to demand it is best to invest in this project. Few Indian major players 1. Air Liquide India Holding Pvt. Ltd. 2. Arrow Oxygen Ltd. 3. Bellary Oxygen Co. Pvt. Ltd. 4. Bhagawati Oxygen Ltd. 5. Bhilai Oxygen Ltd. 6. Govind Poy Oxygen Ltd. 7. Howrah Gases Ltd.
Plant capacity: Oxygen Gas (Medical Grade) Purity 99.5-99.9%: 500 Cylinders per Day Oxygen Gas (Indudrial Grade) Purity 95-99%: 500 Cylinders per DayPlant & machinery: 418 Lakhs
Working capital: -T.C.I: Cost of Project: 748 Lakhs
Return: 58.00%Break even: 27.00%
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Start a Most Developing Business of Oxygen Gas Plant

Medical oxygen is a high-purity oxygen that is developed for use in the human body and is utilised for medical treatments. To avoid contamination, medical oxygen cylinders only contain high-purity oxygen gas; no other gases are permitted in the cylinder. An oxygen concentrator should have a medical grade oxygen content of no less than 90.0 percent and no more than 96.0 percent. When looking at appropriate oxygen saturation levels, it's also necessary to consider altitude. Because it is classified as a drug, it must meet FDA regulations for compressed medical gas. One of the requirements is that oxygen cylinders be thoroughly emptied at all times to reduce the danger of contamination. High altitude and for oxygen tents in hospitals is a more recent development. Oxygen gas in the breathing apparatus for a visitor at high altitudes and for oxygen tents in hospitals is a more recent development. The increased intensity and speed of reactions caused by oxygen enriched air rather than ordinary air is an extension of the usage of oxygen; the reduction in cycle time accomplished in chemical or metallurgical processes allows for a higher output per volume of equipment and cheaper expenses. The use of oxygen as a raw material for the production of chemical compounds is common place. Liquid oxygen combined with carbon black has the potential to become a significant and inexpensive explosive. The growth of the worldwide medical gas oxygen cylinder market has been aided by Covid-19. The increased number of COVID-19 cases has fundamentally driven the demand for medical oxygen gas cylinders for intensive care during the Covid-19 pandemic. Because of the rising number of COVID-19 patients, the demand for oxygen has increased to 1.1 million cylinders in low to middle income nations alone. Preventive steps are being taken in a number of nations to ensure a sufficient supply of oxygen for COVID-19 patients. 1. Use in Pregnancy: Oxygen is used in pregnancy when needed by doctors to treat underlying illnesses and prevent hypoxemia, at the lowest feasible dosage for the shortest time. 2. Use in Lactation: Oxygen can be administered during breast-feeding if clinically necessary to treat underlying sickness and prevent hypoxemia, but only at the lowest dosage for the shortest time. 3. Use in the Elderly: Clinical assessment and the course of the illness determine whether or not to use in the elderly. Some elderly patients with chronic severe obstructive pulmonary disease may require low inspired oxygen concentrations and rely on hypoxic drive for respiration. Around 1917, oxygen therapy became popular. Oxygen cylinders are most typically utilised by persons with low oxygen levels in their blood. When using oxygen, it's crucial to know when to start and stop breathing. Medical oxygen is made by a cryogenic distillation process that separates oxygen, nitrogen, and argon from air. Oxygen concentrators are used in hospitals to purify oxygen from the air. The United States Food and Drug Administration (FDA) has made it illegal to buy Medical Oxygen, Oxygen Concentrators, or any other oxygen device without a prescription. People suffering from cardiac arrest, cyanosis, shock, severe haemorrhage, and other conditions receive oxygen therapy. The rising prevalence of chronic and infectious diseases such as pandemic Covid-19, cancer, asthma, diabetes, heart attack, and others, as well as an increase in the global elderly population, are driving the global medical oxygen gas cylinders market. According to the World Health Organization (WHO), a major death toll has occurred worldwide as a result of the corona virus. To date, more than 346000 deaths have been reported worldwide, with more than 5.5 million infected individuals. As a result, medicinal oxygen cylinders are commonly employed for critical patients to battle the covid-19 epidemic. Entrepreneurs who invest in this project will be successful. Few Indian major players 1. Air Liquide India Holding Pvt. Ltd. 2. Arrow Oxygen Ltd. 3. Bellary Oxygen Co. Pvt. Ltd. 4. Bhagawati Oxygen Ltd. 5. Bhilai Oxygen Ltd. 6. Govind Poy Oxygen Ltd.
Plant capacity: 172 Cylinders per DayPlant & machinery: 178 Lakhs
Working capital: -T.C.I: Cost of Project: 416 Lakhs
Return: 63.00%Break even: 14.00%
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Set up a Profitable Business of Oxygen Gas Plant. Rising Demand of Oxygen, Due to Covid-19 Pandemic.

Oxygen (O) is a nonmetallic chemical element in Periodic Table Group 16 (VIa, or the oxygen group). Oxygen is a colourless, odourless, and tasteless gas that is taken up by animals, who then convert it to carbon dioxide; plants, on the other hand, use carbon dioxide as a carbon source and return oxygen to the environment. Oxygen produces compounds when it reacts with nearly every other element, as well as when it reacts with other elements to displace them from their combinations; in many circumstances, these reactions are accompanied by the evolution of heat and light, and are referred to as combustions. Water is the most crucial component. Medical oxygen is a high-purity oxygen that is developed for use in the human body and is utilised for medical treatments. To avoid contamination, medical oxygen cylinders only contain high-purity oxygen gas; no other gases are permitted in the cylinder. An oxygen concentrator should have a medical grade oxygen content of no less than 90.0 percent and no more than 96.0 percent. When looking at appropriate oxygen saturation levels, it's also necessary to consider altitude. Because it is classified as a drug, it must meet FDA regulations for compressed medical gas. One of the requirements is that oxygen cylinders be thoroughly emptied at all times to reduce the danger of contamination. One of the requirements is that oxygen cylinders be thoroughly emptied at all times to reduce the danger of contamination. Benefits of Medical Oxygen Gas: Oxygen is utilized as a medical treatment in both chronic and acute instances, and it can be administered in a hospital, a pre-hospital setting, or completely outside of a hospital setting. It is used for emergency resuscitation, anesthetic, life support for patients who are unable to breathe on their own, and oxygen treatment. Athletes also take medicinal oxygen during training or at high elevations. Medical oxygen is used for the following purposes: 1. Serve as a foundation for almost all modern anesthetic procedures. 2. Improve oxygen availability to restore tissue oxygen tension in a variety of diseases, including COPD, cyanosis, shock, severe bleeding, carbon monoxide poisoning, serious trauma, and cardiac/respiratory arrest. 3. Assist with resuscitation. 4. Provide artificially ventilated patients with life support. 5. Support cardiovascular health. Market Outlook: In value terms, the global medical oxygen market was valued at USD4572.39 million in 2020, and it is expected to increase at a CAGR of 7.02 percent to USD6712.32 million by 2026. The rising frequency of respiratory illnesses among the population is driving the global medical oxygen market. Furthermore, significant elderly population rise is expected to boost market growth during the predicted period. Furthermore, the growing demand for home healthcare facilities is likely to boost the market's growth in the coming years. The market is projected to be restrained by increased knowledge and adoption of alternative products such as oxygen concentrators. Technological improvements are allowing the introduction of unique oxygen supply items, which will act as a restraint on the oxygen gas industry. Rising Demand of Oxygen Gas in COVID-19 Pandemic: The world has been hammered severely by the second wave of coronavirus infections. The new surge in COVID-19 cases has increased demand for medical oxygen, a vital commodity in treating the respiratory condition, putting significant strain on the nation's medical infrastructure. Over the last six months, the demand for oxygen in hospitals has reportedly increased by 600-800 percent. From treating heart failure and pneumonia to asthma and COVID-19, oxygen therapy has the potential to save millions of lives. Covid-19 has had a favorable impact on the worldwide medical gas oxygen market's growth. The increased number of COVID-19 cases has fundamentally driven the demand for medical oxygen gas for intensive care during the Covid-19 pandemic. Because of the rising number of COVID-19 patients, the demand for oxygen has increased to 1.1 million cylinders in low to middle income nations alone. Preventive steps are being taken in a number of nations to ensure a sufficient supply of oxygen for COVID-19 patients.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Investment Opportunities and Strategies in Startup of Oxygen Gas Plant (Industrial and Pharmaceutical Grade).

Chemicals used in industry might be elemental gases, chemical compounds, organic or inorganic. Specialty gases, medical gases, fuel gases, and refrigerant gases are some of the terms used in different industries. The various gases are employed in a range of industries, with the metal, polymer, and food industries being the most common. The different gases' applications are mentioned below. The Glenbrook steel mill uses the majority of the oxygen produced by BOC Gases to oxidise undesirable impurities in the steel. The rest is used in food processing, medical oxygen for respiration, and oxy-acetylene torches. Industrial oxygen is utilized for combustion, oxidation, cutting, and chemical reactions in industrial plants. The purity levels of industrial oxygen are not suitable for human consumption, and contaminants from filthy equipment or industrial storage could make people sick. Medical oxygen is produced with a high level of purity, and the oxygen generation equipment is built to the highest quality requirements. In the air separation, medical oxygen is distilled until it fulfils medical criteria. Ambulances, surgery, and intensive care units all need medical grade oxygen. It is mandatory to have adequate drug licences and follow standard operating processes while producing medical oxygen, which is also listed as a drug on the WHO list of essential medicines. Most living things require oxygen to survive, therefore the importance of oxygen in the area of medicine cannot be overstated. Oxygen is employed in almost every aspect of healthcare, from resuscitation to inhalation therapy. Chronic asthma, cystic fibrosis, pulmonary hypertension, obstructive sleep apnea, heart failure, anaphylaxis, significant trauma, and seizure or hypothermia are just a few of the chronic and acute health disorders for which oxygen treatment is commonly utilised. Oil and gas, petrochemicals, chemicals, power, mining, steelmaking, metals, environmental protection, medicine, pharmaceuticals, biotechnology, food, water, fertilisers, nuclear power, electronics, and aerospace are just a few of the industries that employ industrial oxygen gases. To live, we need to breathe oxygen. However, oxygen has numerous practical use. It may kill microorganisms and is used in welding and wastewater treatment. Carbon monoxide poisoning is treated with oxygen, which also permits divers to breathe underwater. The global industrial gases market was worth USD 92.0 billion in 2020, and it is predicted to increase at a CAGR of 6.0 percent from 2021 to 2028. The expanding manufacturing industry in Asia Pacific's developing economies is primarily responsible for the market's growth. Furthermore, rising industrialization and urbanisation, as well as the increased use of industrial gases in a variety of industries, including healthcare, metals and mining, and food and beverages, are projected to have an impact on market growth in the coming years. Gases produced in significant numbers for use in industrial processes are referred to as industrial gases. These gases are also known as fuel, medicinal, refrigerant, or speciality gases, depending on their application in various industries. The market for medical and pharmaceutical gases and equipment is expected to reach $15.2 billion in 2019, with a CAGR of 6.4 percent from 2020 to 2025. Pharmaceutical and medical gases are fluids designed for use in the medical, pharmaceutical, and biotechnology industries. They're typically utilised to synthesise, sterilise, or insulate human-health-related processes or goods. Major Key Players: 1. Arrow Oxygen Ltd. 2. Bhagawati Oxygen Ltd. 3. Govind Poy Oxygen Ltd. 4. Howrah Gases Ltd. 5. Linde India Ltd. 6. Madhav Industrial Gases Pvt. Ltd. 7. Niket Udyog Ltd. 8. Praxair India Pvt. Ltd.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Clean Air and Clean Fuel Compressed Bio Gas (CBG) Bio CNG plant | Compressed Bio Gas (CBG) Bio CNG plant Produces Renewable Energy That Does Not Emit Greenhouse Gases or Soot

A renewable energy source that can be utilized to generate electricity, power vehicles, and heat residences is compressed biogas. Watch Video: Compressed Bio Gas CBG the Fuel of the Future Bio CNG Plant Click here to send your queries/Contact Us CBG plants are often constructed in rural locations with low population densities, such as sugar cane farms and rice fields. CBGs, often referred to as biogas plants, can be used to lower methane emissions, a particularly harmful greenhouse gas. Visit this Page for More Information: Start a Business in Industrial Gases Industry Uses and Application: Compressed bio gas (CBG) facilities have a variety of uses and applications. They can be utilized in both fixed environments, like industries, hospitals, and schools, as well as mobile ones, like buses, trains, and ships. There are several uses for biogas. Download Pdf: The Fuel of the Future Compressed Bio Gas CBG Bio CNG plant Save Money and Help save Our Planet with This Eco-Friendly Fuel Combustion with a flame produced by the thermal breakdown of organic matter is used to generate heat or power. Because it contains methane, carbon dioxide, and hydrogen, it has been claimed that bio-gas has a higher calorific value than natural gas. Through the application of a catalyst, it can be transformed into syngas, which is mostly made up of hydrogen and carbon monoxide. Related Business Plan: BIOGAS PRODUCTION Manufacturing Process: By utilizing anaerobic digestion to break down organic materials, compressed bio gas is produced. The biomass is first processed into a slurry and combined with water. Anaerobe bacteria are added to this slurry to break down the biomass without the need for oxygen. When the mixture is heated to between 60 and 65 degrees Celsius, a process occurs that yields solids like water, cellulose, and lignin as well as gases like methane and carbon dioxide. Two different forms of biogas are produced as a result of this procedure. Syngas is one form and it may be used in turbines exactly like natural gas. CNG and compressed biogas are the other types. Read Similar Articles: INDUSTRIAL GASES PROJECTS Benefits of Starting Compressed Biogas Plant Business: ? Create jobs in rural areas, boost economic growth, and encourage self-reliance. ? Generate renewable energy from food waste and agricultural waste while reducing greenhouse gas emissions. ? Produce natural gas fuel to power automobiles with fewer emissions, improving air quality. Use waste streams as the feedstock for renewable energy plants to reduce reliance on fossil fuels. ? Promote public health by doing away with coal-fired power plants Reduce dependence on petroleum by providing biofuel; Over time, save money owing to falling natural gas prices; Aside from using animal manure, this alternative income source is flexible enough to employ any sort of biomass, making it more ecologically benign than diesel generators and easier to start up with little initial expenditure. Watch Video: How to Start Biogas Production, Biogas – An Intense Opportunity Market Size in India: Due to their high efficiency and low costs, compressed bio gas (CBG) or bio (CNG) facilities are anticipated to have a rapidly expanding market in the next years. CBGs had a $2.6 billion USD market value in 2016; by 2025, that market is expected to grow to $4.1 billion USD. The total revenue generated by CNGs worldwide in 2016 was $5.7 billion USD, and by 2025, it is anticipated to increase to over $9 billion USD. The fact that they operate more effectively than conventional gas-fired power production systems, which results in lower fuel costs and a decrease in greenhouse gas emissions, is one of the key elements driving this rapid development. Related Feasibility Study Reports: Compressed Biogas - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue Global Market Outlook: The market is anticipated to increase between 2021 and 2028 at a CAGR of 5.4%, from USD 25.61 billion in 2021 to USD 37.02 billion in 2028. The demand for and growth of this industry are the causes of the abrupt increase in CAGR. The increasing demand for cleaner fuels in the transportation sector, fluctuating oil costs, and growing concerns about climate change on a worldwide scale are to blame for this. By removing oxygen from the combination of gas, the plant converts biomass into biogas. Read our Books Here: Handbook on Biogas and Its Applications (from Waste & Renewable Resources with Engineering & Design Concepts)(2nd Revised Edition) Click here to send your queries/Contact Us Before being utilized as fuel for automobiles, the compressed gas must first be introduced into pipelines at a high pressure of up to 2,500 pounds per square inch. Bio gas serves as the primary fuel for end user categories such as passenger cars, buses, Lorries, and vans, as well as agricultural machinery. Over the course of the anticipated period, this market is anticipated to expand significantly as more nation’s priorities environmental sustainability and make considerable investments in green technology. Watch other Informative Videos: Industrial, Medical and Specialty Gases Manufacturing Project Ideas See More Links: • Start a Business in Asia • Start a Business in Potential Countries for Doing Business • Best Industry for Doing Business • Business Ideas with Low, Medium & High Investment • Looking for Most Demandable Business Ideas for Startups • Startup Consulting Services • Start a Business in Africa • Start a Business in India • Start a Business in Middle East • Related Videos • Related Books • Related Projects • Related Market Research Reports
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Manufacturing Business Of Compressed Biogas

Agricultural waste, urban trash, and other organic sources are used to create compressed bio gas (CBG), a renewable energy source. It is produced via anaerobic digestion (AD), a method that converts organic waste into biogas and other valuable products by dissolving it in the absence of oxygen. Methane and carbon dioxide, which may both be utilised to create energy, make up the majority of biogas. In order to boost its energy density and make it appropriate for use in fuel cell applications, such as the production of power or transportation, CBG is a type of biogas that has been processed and compressed. CBG is more efficient and economical than other renewable energy sources since it contains more energy than raw biogas. Moreover, CBG is a dependable source of renewable energy since it can be kept in storage for extended periods of time without losing any of its energy. Applications and Usage A sustainable energy source with numerous uses and applications is compressed bio gas. It is a clean fuel that has multiple uses, including generating energy, driving cars, and providing heating and cooling. Moreover, it can be utilised in industrial operations that create chemicals, polymers, and fertiliser. It can also be utilised in production procedures like metal casting and welding. Transportation is one of compressed bio gas's most significant applications. Compressed bio gas is an environmentally favourable substitute for conventional gasoline-powered vehicles because it can be used to power both cars and buses. In addition, it has a number of benefits over gasoline, including lower pollutants and cost savings. Moreover, compressed biogas can be utilised to heat and cool a house. It produces less pollution and is more efficient than conventional fuels like oil or natural gas. Moreover, it can be combined with solar power to heat a house. It can be applied to industrial processes, energy storage, household heating and cooling, and transportation. Compressed bio gas is projected to play an increasingly bigger role in the future energy mix as demand for renewable energy rises. The Future of the Compressed Bio Gas Industry The industry for compressed biogas has a very bright future. Renewable energy sources like compressed bio gas are gaining popularity as a result of the world's rising energy demands. This fuel source has a number of advantages that make it suitable for a range of uses and industries. In the upcoming years, it is anticipated that the need for compressed bio gas would increase even more. The industry is poised to see an even greater increase as more companies and governments realise the possibilities of this renewable energy source. Compressed biogas is becoming a competitive and feasible choice for both large-scale and small-scale enterprises thanks to companies' significant investments in technology to develop and improve production methods. A more effective and affordable energy mix can be made by combining compressed bio gas with other fuels. This is a fantastic choice for organisations and governments trying to lessen their impact on the environment because it can be utilised to reduce emissions while still satisfying energy requirements. India Market Outlook India is the second-largest consumer of biogas worldwide. The Energy and Natural Resources Ministry claims that India will receive an investment of Rs 2 lakh to build 5000 biogas plants by 2023–2024. In this regard, the Ministry of Renewable Energy is largely upbeat. India is becoming more popular as a hub for investments in renewable energy. Over 64 billion US dollars were invested in this area between 2014 and 2021, the majority of which came from outside. Governments all around the world have made reducing greenhouse gas (GHG) emissions a top priority, while simultaneously trying to increase global energy demand. Following this, it is anticipated that during the following ten years, the installation of renewable energy sources would rise dramatically, leading to an expansion of the India biogas industry. Global Market Outlook The size of the global biogas market was estimated at USD 60.06 billion in 2021, and it is anticipated to increase at a CAGR of 4.3% from 2022 to 2030. The market is anticipated to expand due to the increased product demand from numerous applications, including cooking gas, enhanced biogas, power, heat, and car fuel. The demand for biogas in electricity applications has greatly increased as a result of the shift in emphasis towards the use of renewable energy, particularly in the electric power industry. Over the anticipated period, the industrial segment is anticipated to have significant expansion. Over the forecast period, the demand for biogas is anticipated to increase due to the growing interest in discovering efficient ways to produce bio-products and biofuel from industrial food waste as well as the growing requirement for wastewater treatment in the industrial sector. Conclusion In conclusion, the compressed biogas sector is seeing tremendous growth and the future is promising. This industry is poised to become one of the main players in the energy sector as a result of technological developments and an increase in the number of consumers and businesses who recognise the advantages of adopting this renewable energy source. It is obvious why this fuel is growing in popularity with businesses and governments around the world given its low emissions, economic effectiveness, and environmental friendliness. Major Key Companies • Agrinz Technologies GmbH • Air Liquide • DMT International • Gasum Oy • HomeBiogas Inc. • PlanET Biogas • Scandinavian Biogas Fuels International AB • Schmack Biogas Service • Total • Xebec Adsorption Inc.
Plant capacity: Compressed Bio Gas 6 MT Per Day Spent Slurry as Manure 60 MT Per DayPlant & machinery: 172 Lakhs
Working capital: -T.C.I: Cost of Project: 522 Lakhs
Return: 27.00%Break even: 46.00%
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Plant of Freon Gases for Refrigeration

Chlorofluorocarbons (CFCs) and hydrochlorofluorocarbons (HCFCs) referred to as Freon gases have actually been widely utilized in cooling and refrigeration applications. The term Freon refers to a team of CFCs and HCFCs with outstanding air conditioning buildings, which have made them a popular choice. These gases are also safe and non-flammable. Freon gases are frequently recognized by a collection of numbers such as R-22, R-12, or R-134a, each number representing a different chemical make-up and application. For example, R-12 was frequently used in air conditioning systems in vehicles until it was eliminated as a result of ecological problems, while R-22 was a common cooling agent in household a/c devices and heatpump. R-134a, on the other hand, is presently among the most usual cooling agents utilized internationally, discovered in a selection of cooling systems from automobile a/c to large commercial chillers. Advantages and Usefulness Freon gases have a large range of uses in various fields as a result of their flexibility and superb air conditioning properties. These gases are not only used in household home appliances that give convenience and preserve food, however they also have a vital role in industrial and business settings. In the automotive market, for example, Freon gases were previously utilized in automobile a/c systems to produce a cooler atmosphere inside the cabin. Nonetheless, making use of Freon R-12 was stopped due to the fact that it harmed the ozone layer, and it was replaced with the more environmentally friendly R-134a, which is now typically utilized. In addition, Freon is crucial in commercial cooling systems. In large-scale production procedures, extreme heat is generated, which should be regulated to make certain the smooth operation of equipment and equipment. Industrial chillers that use Freon gases successfully manage this excess warm, stopping getting too hot and making sure ideal performance of the commercial procedures. In the clinical area, Freon gases are made use of in various cooling applications such as in the refrigeration of blood, medicines, and various other organic products. They assist keep the exact low temperature levels needed to protect these products' top quality and integrity. Freon gases are additionally used in clinical tools like MRI machines, where they offer to cool the superconducting magnets. Moreover, Freon gases have applications in the IT market. They are made use of in information centers to cool web servers and prevent getting too hot, which can result in information loss or equipment failure. With the enhancing need for information storage space and the succeeding increase in data centers, the use of Freon gases in this industry has actually become increasingly crucial. Market Outlook The global refrigerants market size was valued at USD 22.47 billion in 2022 and is projected to grow from USD 24.20 billion in 2023 to USD 41.21 billion by 2030, exhibiting a CAGR of 7.9% during the forecast period. A refrigerant is a concoction of liquid materials that is utilized in heat pumps and refrigeration cycles. The refrigeration cycle is when it changes from a liquid to a gaseous state. Their favorable characteristics include a high heat of vaporization, non-corrosiveness, a high gas density, and a moderate liquid density. Furthermore, a variety of readily available compounds, including hydrofluorocarbons (HFCs), chlorofluorocarbons (HCFCs), hydrofluroolefins (HFO), and other inorganic chemicals, are employed as refrigerants. The chemical, pharmaceutical, and food industries, as well as building air conditioning systems, are their primary applications. The growth of the industry is being propelled by the growing demand from various end-use sectors, namely the automotive sector. In addition, the number of cold stores expanding, the need for green refrigerants rising, and the quick urbanization of emerging nations are all anticipated to fuel the expansion of the global market throughout the course of the projected period. Over the course of the forecast period, Asia Pacific is anticipated to have significant growth. This is a result of the economy growing quickly, particularly in the consumer goods and automotive sectors. The area's increasing urbanization and rising standard of living are driving up market expansion even more. Summary There are several advantages to launching a Freon gas business. This business endeavor has promising possibilities, ranging from meeting a wide range of applications and expanding market demand to generating employment opportunities and improving society. A prosperous and long-lasting company can be established by entrepreneurs in this industry with the correct strategy, creativity, and marketing techniques. Key Companies • SRF Limited (India) • Gujarat Fluorochemicals Ltd. (India) • Honeywell International Inc. (US) • The Chemours Company (US) • Linde Plc (Ireland) • Air Liquide (France) • Sinochem Lantian Co. Ltd. (China) • Arkema (France)
Plant capacity: 13.6 Kgs Cylinder 224,196 Nos Per Annum 1 Kg Cans 1,500,000 Nos Per Annum 500gm Cans 3,000,000 Nos Per Annum by Product HCL Acid 30% 21,000 Nos Per AnnumPlant & machinery: 1064 Lakhs
Working capital: -T.C.I: Cost of Project: 3229 Lakhs
Return: 30.00%Break even: 45.00%
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