PUBLISHER: Stratistics Market Research Consulting | PRODUCT CODE: 1403540
PUBLISHER: Stratistics Market Research Consulting | PRODUCT CODE: 1403540
According to Stratistics MRC, the Global Gas Separation Market is accounted for $14.40 billion in 2023 and is expected to reach $21.51 billion by 2030 growing at a CAGR of 5.9% during the forecast period. Gas separation is a basic procedure that includes purifying individual gases or separating gases from gas mixtures. This vital technology is used in many different industries, including healthcare, environmental protection, energy production, and industrial manufacturing. Additionally, diverse approaches, each suited to a particular application, are included in gas separation methods. These include membrane separation, adsorption, distillation, and cryogenic processes.
According to the gas quantity processed in per unit time, the design calculation of the cryogenic separation system was carried out. Based on the system design, the heat exchanger, the condensation tank and the cold box structural were all displayed.
The market for gas separation is driven by the unrelenting rate of industrialization in developing countries. Industrial gases are necessary for a number of processes in the manufacturing sector, which includes the electronics and automotive industries. Moreover, these gases, mainly nitrogen and oxygen, are essential for welding, assembling electronics, and fabricating metal. Gas separation technologies can meet the growing demand for reliable, high-purity gas supplies as factories and manufacturing facilities grow.
Numerous methods of gas separation require a lot of energy, particularly distillation and cryogenic separation. Along with raising operating expenses, this high energy use also contributes to greenhouse gas emissions, which is in line with sustainability objectives and environmental regulations. However, the industry faces a challenge in balancing the need for reduced environmental impact with the requirement for efficient gas separation.
Gas separation technologies are always evolving, which gives businesses the chance to come up with creative solutions. The efficiency and cost-effectiveness of gas separation systems are being improved through the use of artificial intelligence and automation, better membrane materials, and more effective process designs. Furthermore, these developments support businesses in maintaining their competitiveness while also encouraging the use of more environmentally friendly and effective separation techniques.
It is imperative to acknowledge the potential threat posed by emerging technologies and alternative methods of gas separation. Conventional gas separation methods could be challenged by advancements in materials science, process engineering, and energy conservation. Moreover, innovative adsorption materials, cutting-edge membranes, and different separation techniques are a few examples of new techniques that could pose a threat to the market's established players by providing affordable and sustainable solutions.
The COVID-19 pandemic affected the gas separation market in a number of ways. While lockdowns and economic uncertainty caused production and energy consumption to be curtailed, other sectors, like industrial manufacturing and energy, saw disruptions and decreased demand. Some segments, like medical and healthcare gas supply, experienced heightened demand due to the increased need for medical gases in treating COVID-19 patients. Additionally, some companies faced operational challenges as a result of supply chain disruptions and restrictions on workforce mobility, which also had an impact on the sourcing and maintenance of equipment and materials.
The Natural Gas Processing segment holds the largest share. The separation and purification of gases from raw natural gas, which guarantees that it satisfies the necessary quality standards prior to distribution, characterizes this segment. An essential energy source, natural gas is separated into its valuable components, such as methane, ethane, and propane, and contaminants like carbon dioxide, water vapor, and sulfur compounds are removed. For a variety of commercial, industrial, and residential uses, the safety and quality of the natural gas supply are guaranteed by these procedures.
The Segment with the highest CAGR is healthcare, as it is the vital role that gas separation technologies play in ensuring a steady supply of high-purity gases, especially nitrogen and oxygen. Moreover, these gases play a critical role in many medical applications, such as anesthesia, respiratory therapy, and device carrier gas. The global emphasis on patient care and healthcare quality, along with the ongoing development of medical treatments and infrastructure, has led to a steady increase in the demand for gas separation solutions in the healthcare sector.
The Asia-Pacific area accounted for the largest share. This was mostly caused by the swift urbanization and industrialization of nations like China and India, which raised the need for industrial gases. Furthermore, the growth of the energy sector, especially in the fields of renewable energy and natural gas processing, also played a significant role in the region's market dominance.
The Middle East and North Africa (MENA) region is anticipated to have the highest CAGR. The expansion of downstream industries like petrochemicals and rising investments in the oil and gas sector were the main drivers of this growth. Moreover, the region's rapid growth was facilitated by its emphasis on applying gas separation technologies to the processing of natural gas and increasing the productivity of gas production.
Some of the key players in Gas Separation market include Linde plc, Air Products and Chemicals, Inc, Air Liquide S.A., UOP LLC (Honeywell UOP), Parker Hannifin Corporation, AirSep Corporation, Matheson Tri-Gas, Inc., Cryotec Anlagenbau GmbH, Wartsila Corporation, Xebec Adsorption Inc., Generon IGS, PCI Gases and IGS CNG Services.
In July 2023, Linde plc (LIN) announced that it has signed two major agreements in Brazil for the supply of renewable energy. The new agreements are expected to result in an increase of more than 60% in Linde's global active renewable energy.
In June 2023, Honeywell International Inc. HON has entered into a definitive agreement to acquire heads-up-display assets of Swedish aerospace and defense company Saab Technology. The financial terms of the transaction are kept under wraps. The HUD system reduces the workload for pilots, helps them with increased situational awareness and increases flight safety.
In February 2023, Air Liquide and Sasol have signed two Power Purchase Agreements (PPA) with Total Energies and its partner Mulilo for the long-term supply of a total capacity of 260 MW of renewable power to Sasol's Secunda site, in South Africa, where Air Liquide operates the biggest oxygen production site in the world.