Semiconductor Gas Abatement Systems Market Growth Size | 2031

Report Description

Semiconductor Gas Abatement Systems Market Outlook

Global Semiconductor Gas Abatement Systems Market was valued at USD 746.8 Million in 2021 and is expected to reach USD 1,874.9 Million in 2030, expanding at a CAGR of 10.8% during the forecast period. The overall incremental opportunity is estimated to be USD 1,128.1 Million from 2022 to 2030. The gas abatement systems are designed to reduce various hazardous gases such as phosphine gas, diborane gas, and Sulphur hexafluoride during manufacturing processes.

Basically, these systems change the chemical composition of the gases. Additionally, gas abatement systems use a variety of methods, including combustion and catalysis to detoxify harmful gases. Furthermore, numerous products that are essential in daily life, such as computers, smartphones, home appliances, automobiles, and medical equipment, are supported by semiconductor technology.

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Semiconductor Gas Abatement Systems Market Dynamics

Rising concerns related to environmental pollution

Rising concerns related to environmental pollution are expected to fuel the demand for semiconductor gas abatement systems in the coming years. The semiconductor industry is gradually adopting gas abatement technologies. However, the rate of adoption is dependent on local regulatory compliance. Semiconductor manufacturers are focusing on the reduction of nitrogen oxide (NOx) emissions, particularly in areas with severe NOx limitations, such as Germany and the US.

Furthermore, wafer deposition methods utilize nitrous oxide and ammonia, and process nitrogen gases that are extremely difficult to extinguish, which leads to the production of NOx. Additionally, the semiconductor manufacturing processes are used to create p-type, n-type, and active solid-state devices from a wafer substrate. The semiconductor industry negatively influences the environment, as it pollutes the air and groundwater and produces toxic waste as a by-product during the production process.

Growing demand for consumer electronics

Growing demand for consumer electronics across the globe is projected to boost the market during the forecast period. The advancement of communications, computing, military systems, transportation, healthcare, and other sectors is made possible by semiconductors, which are a crucial part of electronic equipment. Furthermore, semiconductors play a significant role in daily life, as they are used in the production of electronic goods.

Consumer electronics, devices, and hardware are shifting to connected, software-enabled solutions. Demand for innovation, a short product life cycle, agility, a strong supply chain & operations, and cost-effectiveness are boosting the use of semiconductors in consumer electronics.

Consumer electronics (CE) is a multibillion-dollar sector that has been continually advancing and evolving with technology as well as adding new product lines in response to shifting consumer lifestyles. Therefore, new competitors are joining the market, as it is competitive, especially from China, a major hub for global production.

High usage of water and energy usage in gas abatement systems hampers the market growth

A burn/wet type of gas abatement system is frequently used in the semiconductor sector. This system breaks down the gases into less dangerous molecules, which requires the sustainment of high temperatures to support the required chemical reactions. High energy usage and technological limitations are incurred while maintaining such temperatures.

Furthermore, the abatement systems produce a significant amount of wastewater, depending on the type and age of the abatement system, possibly 50% or more of the total wastewater volumes at some fabrications.

Particulate contaminants that generate smog in the atmosphere are captured by the wet-type gas abatement system, which requires water. In order to prevent corrosion in the infrastructure of abatement systems, water is used to cleanse abatement systems and raise the pH of acidic gas. These factors are expected to hamper the market growth in the coming years.

Increasing complexity of the semiconductor manufacturing process

Increasing complexities of the semiconductor manufacturing process are expected to hamper the market in the coming years. A varied combination of gases is produced as by-product during the chip-making process. Additionally, large fluxes of acidic gases cause corrosion of system components, which affect the semiconductor gas abatement system infrastructure.

Moreover, increased gas flow puts pressure on the wastewater treatment system, as it is necessary to use water to offset acidity. Dosing alkaline chemicals such as sodium fluoride or potassium fluoride into the abatement system to neutralize acidic waste gas is a common practice in Europe, and is gradually being adopted in the US. The rate of acceptance of this strategy is heavily influenced by the return on investment.

Technological advancements in semiconductor gas abatement systems

Modern production facilities are created to meet the need for new and innovative products, and many of them require clean rooms and contamination-free environments. The hi-tech sector is impacted by the need to minimize greenhouse gas emissions and reduce carbon emissions. For example, the semiconductor industry utilizes technologies such as deposition and etching that result in the production of other unwanted poisonous and corrosive gases such as CF4, SiH4, and SF6.

Furthermore, the semiconductor industry has access to three key abatement technologies, including catalytic breakdown, combustion, and plasma. Edwards, a developer and manufacturer of vacuum products and abatement systems, has created the Atlas line of products in the area of combustion gas abatement for semiconductor manufacturers. The range is said to use inward-fired combustor technology to achieve low costs while using less fuel than prior-generation gas abatement devices.

The Zenith series, manufactured by Edwards, meets the vacuum and abatement requirements for cutting-edge semiconductor fabrication at 60nm and smaller. Additionally, Edwards provides point-of-use water absorption scrubbers that are appropriate for the treatment of exhaust streams containing water-soluble and water-reactive gases, as well as electrically heated oxidation systems for the removal of pyrophoric and acidic gases frequently encountered in semiconductor applications.

Scope of Semiconductor Gas Abatement Systems Market Report

The report on the Global Semiconductor Gas Abatement Systems Market includes an assessment of the market, trends, segments, and regional markets. Overview and dynamics have also been included in the report.

Semiconductor Gas Abatement Systems Market Segmental Outlook

Based on type, the global semiconductor gas abatement systems market is segmented into combustion, dry type, wet type, and catalytic type

The wet type segment accounted for largest market share of XX%. In 2021 and is estimated to reach USD XX Million by 2030, with a CAGR of XX% during the forecast period. Wet type gas abatement system is an operative air pollution control system. It removes hazardous gases and particulates from industrial exhausts. The device operates by delivering a cleaning liquid, primarily water, where the polluting material is collected, into the dirty gas stream. Thus, all these factors are fueling the market in the coming years.

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Based on application, the global semiconductor gas abatement systems market is segmented into Fabrication and Deposition, where fabrication is further divided into etching and ion implantation. On the other hand, deposition is further segmented into Physical vapor deposition (PVD), Chemical vapor deposition (CVD), Atomic layer deposition (ALD), and Epitaxy (EPI).

The Deposition segment accounted for largest market share in 2021. Solid materials of excellent quality and performance are created by deposition method. In order to create thin films, the procedure is frequently employed in the semiconductor sector.

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Regional Level Outlook

On the basis of regions, the global semiconductor gas abatement system market is segmented into North America, Europe, Asia Pacific, Latin America, and Middle East & Africa.

The Asia Pacific accounted for largest market share of XX% in 2021, due to the growing awareness related to the air and water pollution along with rapid industrialization in the region. Furthermore, rising investments in semiconductor industry due to growing demand for consumer electronics is expected to fuel the market in the region.

On going government’s efforts to enhance the country’s infrastructure are expected to favor the growth of the electronics manufacturing sector, thereby driving the demand for gas abatement system in the coming years.

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Key Benefits for Industry Participants & Stakeholders

• In-Depth Analysis of the Global Semiconductor Gas Abatement System Market
• Historical, Current and Projected Market Size in terms of value
• Potential & Niche Segments and Regions Exhibiting Promising Growth Covered
• Industry Drivers, Restraints and Opportunities Covered in the Study
• Recent Industry Trends and Developments
• Competitive Landscape & Strategies of Key Players
• Neutral Perspective on Global Semiconductor Gas Abatement System Market Performance