Oil & gas accounted for the largest market share in the global carbon capture, utilization, and storage market

The global carbon capture, utilization, and storage market size is expected to grow from USD 1.6 billion in 2020 to USD 3.5 billion by 2025, at a CAGR of 17.0% during the forecast period. The carbon capture, utilization, and storage market are growing due to the increasing usage of CCSU systems in the oil & gas and power generation sector to reduce harmful carbon emissions.

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Oil & gas is the dominating end-use industry in the carbon capture, utilization, and storage market. The use of CCUS in natural gas processing is one of the major drivers of the CCUS market. Various natural gas processing CCUS projects in MEA, North America, and Europe is key support or the high market size in the oil & gas industry. Increasing usage of EOR in the oil & gas industry is also driving the growth of oil & gas industry in the carbon capture, utilization, and storage market.

In 2019, there were more than 24 million tons of CO2 that was captured, stored, and utilized from the oil & gas industry, and the majority of it was extracted from natural gas processing plants. As per the EIA, natural gas generation will grow at a rate of approximately 2.7% per year between 2012 and 2040, which will account for nearly 30% of the total worldwide energy generation by 2040. The deployment of CCUS in this sector will help in creating a viable pathway for a sustainable environment.

COVID-19 has merely put any effect on the market, which is expected to grow at a significant rate in 2020 as well, owing to continuous investment in the field of carbon capture and sequestration. Currently, CCUS is being largely used across natural gas processing plants and power generation plants. The operations of these plants were not affected by the COVID-19 pandemic; as a result, lockdown imposed due to the pandemic posed very minimal impact on the CCUS market.

Current and upcoming projects of CCUS in the APAC region have created an excellent gateway toward the adoption of CCUS. China and Australia are the early adopters of CCUS in the APAC region. The current line-up of carbon capture and sequestration projects in these countries is expected to create an immense opportunity for the companies operating in the carbon capture, utilization, and sequestration ecosystem. Other than Australia and China, South Korea and India are also focusing on adopting CCUS. For instance, South Korea has already taken a step toward CCUS in the Korea CCS 1&2 project, which is currently in an early development stage and is expected to be operational by 2021. India, in 2016, initiated the operation of a carbon capture and utilization system, which was capable of capturing 60,000 tons of C02 per year from coal-fired power plants.

North America is the largest carbon capture, utilization, and storage market owing to the presence of multiple large-scale CCS facilities in the US and Canada. Century plant, Shute Creek Plant, BPundaryy Dam, Petra Nova Plant, ENID Fertiliser plant are some few projects that are operational in eth US and Canada. The carbon capture, utilization, and storage market in North America is expected to be driven by rising environmental concerns in the region. The US Supreme Court proposed a carbon trading scheme, named the US Clean Power Plan in February 2016. This scheme aims at curbing carbon pollution from power plants in the US. Canada, especially Western Canada, is dependent on fossil fuel industries. According to the US EPA, greenhouse gas emissions caused by human activities increased by 7% in the country from 1990 to 2014. The Canadian government has been taking initiatives to reduce carbon emission levels.

The key players in the global carbon capture, utilization, and sequestration market a Royal Dutch Shell (Netherlands), Aker Solutions (Norway), Mitsubishi Heavy Industries, Ltd. (Japan), Linde PLC (UK), Hitachi, tLd.(Japan), Exxon Mobil Corporation (US), JGC Holdings Corporation (Japan), Honeywell International, Inc. (US), Halliburton (US), and Schlumberger Limited (US).

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North America is expected to account for the largest market share in the carbon capture, utilization, and storage market

 

North America is the largest carbon capture, utilization, and sequestration market owing to the presence of multiple large-scale CCS facilities in the US and Canada. Century plant, Shute Creek Plant, BPundaryy Dam, Petra Nova Plant, ENID Fertiliser plant are some few projects that are operational in eth US and Canada. The carbon capture, utilization, and storage market in North America is expected to be driven by rising environmental concerns in the region. The US Supreme Court proposed a carbon trading scheme, named the US Clean Power Plan in February 2016. This scheme aims at curbing carbon pollution from power plants in the US. Canada, especially Western Canada, is dependent on fossil fuel industries. According to the US EPA, greenhouse gas emissions caused by human activities increased by 7% in the country from 1990 to 2014. The Canadian government has been taking initiatives to reduce carbon emission levels.

The global carbon capture, utilization, and storage market size is expected to grow from USD 1.6 billion in 2020 to USD 3.5 billion by 2025, at a CAGR of 17.0% during the forecast period. The carbon capture, utilization, and storage market are growing due to the increasing usage of CCSU systems in the oil & gas and power generation sector to reduce harmful carbon emissions.

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Capture holds the major share of the carbon capture, utilization, and storage.

Capture is the first stage of the CCUS process and involves capturing CO2 from its emission source. It can be applied to any large-scale emission process, including coal-fired power generation plants; gas and oil production; and manufacturing industries, such as cement, iron, and steel. The capture service segment holds the majority of the share in the CCUS market. Moreover, the high cost of capturing in the power generation, iron & steel, cement, and other sectors is one of the major reasons behind the high market share of the capture segment.

Oil & gas accounted for the largest market share in the global carbon capture, utilization, and storage market in terms of value.

Oil & gas is the dominating end-use industry in the carbon capture, utilization, and sequestration market. Various natural gas processing CCUS projects in MEA, North America, and Europe is key support or the high market size in the oil & gas industry. Increasing usage of EOR in the oil & gas industry is also driving the growth of oil & gas industry in the carbon capture, utilization, and sequestration market

COVID-19 has merely put any effect on the market, which is expected to grow at a significant rate in 2020 as well, owing to continuous investment in the field of carbon capture and sequestration. Currently, CCUS is being largely used across natural gas processing plants and power generation plants. The operations of these plants were not affected by the COVID-19 pandemic; as a result, lockdown imposed due to the pandemic posed very minimal impact on the CCUS market.

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Partnership was the key strategies adopted by the market players in the global Carbon Capture, Utilization, and Storage Market

Carbon capture, utilization, and sequestration (also referred to as CCUS) is a process that involves capturing carbon dioxide (CO2), transporting it through pipelines, ships, and other modes of transport and storing it under the Earth’s surface to prevent CO2 emissions. This process is highly useful for curbing CO2 emissions, which lead to a better atmosphere. The growing need to reduce CO2 emissions from industrial and power plants drives the demand for CCUS system. The global carbon capture, utilization, and storage market size is expected to grow from USD 1.6 billion in 2020 to USD 3.5 billion by 2025, at a CAGR of 17.0% during the forecast period.

COVID-19 has merely put any effect on the market, which is expected to grow at a significant rate in 2020 as well, owing to continuous investment in the field of carbon capture and sequestration. Currently, CCUS is being largely used across natural gas processing plants and power generation plants. The operations of these plants were not affected by the COVID-19 pandemic; as a result, lockdown imposed due to the pandemic posed very minimal impact on the CCUS market.

To know about the assumptions considered for the study download the pdf brochure

North America is the largest carbon capture, utilization, and sequestration market owing to the presence of multiple large-scale CCS facilities in the US and Canada. Century plant, Shute Creek Plant, BPundaryy Dam, Petra Nova Plant, ENID Fertiliser plant are some few projects that are operational in eth US and Canada, The carbon capture, utilization, and storage market in North America is expected to be driven by rising environmental concerns in the region. Current operational projects in eth region include Boundary Dam (Canada), Petra Nova (US), Alberta Carbon Trunk Line (ACTL (Canada), and ENID Fertiliser plant (US), among others .

Over the past years, companies have strengthened their position in the global carbon capture, utilization, and storage market by adopting expansions as a major strategy. From 2016 to 2019, the partnership was the key strategies adopted by the market players to maintain growth in the global carbon capture, utilization, and storage market.

For instance, in May 2020, Royal Dutch Shell, together with Equinor ASA (Norway), and Total SE (France) have invested in the Northern Lights carbon capture and storage (CCS) project in Norway. With this investment of USD 682.3 million, the trio intends to set up a joint-venture company. This unique project opens for the decarbonization of industries with restricted opportunities for CO2 reductions.

In November 2015, Flour Corporation signed a contract with Shell (US), wherein Flour corporation constructed Shell’s Quest Carbon Capture and Storage (CCS) project in Alberta, Canada. This project demonstrated Flour’s third-generation modular execution capabilities.

The key players in the market include Fluor Corpoation (US), Royal Dutch Shell (Netherlands), Aker Solutions (Norway), Mitsubishi Heavy Industries, Ltd. (Japan), Linde PLC (UK), Hitachi, Ltd.(Japan), Exxon Mobil Corporation (US), JGC Holdings Corporation (Japan), Honeywell International, Inc. (US), Halliburton (US), and Schlumberger Limited (US) among others. COVID-19 has majorly affected the commercial sectors CCUS projects, such as cement plants, chemical plants, and others. Moreover, Upcoming carbon capture, utilization, and storage projects are expected to delay due to the outbreak of COVID – 19 pandemic.

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Large number of upcoming projects is an excellent opportunity for the carbon capture, utilization, and sequestration Market

 

The global carbon capture, utilization, and storage market size is expected to grow from USD 1.6 billion in 2020 to USD 3.5 billion by 2025, at a CAGR of 17.0% during the forecast period. The carbon capture, utilization, and storage market are growing due to the increasing usage of CCSU systems in the oil & gas and power generation sector to reduce harmful carbon emissions.

Download PDF Brochure: https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=151234843

Current and upcoming projects of CCUS in the APAC region have created an excellent gateway toward the adoption of CCUS. China and Australia are the early adopters of CCUS in the APAC region. The current line-up of carbon capture and sequestration projects in these countries is expected to create an immense opportunity for the companies operating in the carbon capture, utilization, and sequestration ecosystem. Other than Australia and China, South Korea and India are also focusing on adopting CCUS. For instance, South Korea has already taken a step toward CCUS in the Korea CCS 1&2 project, which is currently in an early development stage and is expected to be operational by 2021. India, in 2016, initiated the operation of a carbon capture and utilization system, which was capable of capturing 60,000 tons of C02 per year from coal-fired power plants.

Recent Developments

1. In May 2020, Royal Dutch Shell, together with Equinor ASA (Norway), and Total SE (France) have invested in the Northern Lights carbon capture and storage (CCS) project in Norway. With this investment of USD 682.3 million, the trio intends to set up a joint-venture company. This unique project opens for the decarbonization of industries with restricted opportunities for CO2 reductions.
2. In November 2015, Flour Corporation signed a contract with Shell (US), wherein Flour corporation constructed Shell’s Quest Carbon Capture and Storage (CCS) project in Alberta, Canada. This project demonstrated Flour’s third-generation modular execution capabilities.

The key players in the global carbon capture, utilization, and sequestration market a Royal Dutch Shell (Netherlands), Aker Solutions (Norway), Mitsubishi Heavy Industries, Ltd. (Japan), Linde PLC (UK), Hitachi, tLd.(Japan), Exxon Mobil Corporation (US), JGC Holdings Corporation (Japan), Honeywell International, Inc. (US), Halliburton (US), and Schlumberger Limited (US).

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The report "Waste Heat Recovery System Market by End-Use Industry (Petroleum Refining, Metal Production, Cement and Textile) - Global Forecasts to 2021

The market size of waste heat recovery system (WHRS) was USD 44.14 Billion in 2015, and is projected to reach USD 65.87 Billion by 2021, at a CAGR of 6.90%. Rising energy & electricity prices coupled with stringent government regulations & incentives are expected to drive the market in the future.

Petroleum refining

WHRSs are widely used in petroleum refining processes such as distillation (fractionation), thermal cracking, catalytic, and treatment. The thermal effectiveness of these energy-intensive processes is crucial to the petroleum refining industry and, hence, highly energy efficient WHRS are used for such applications. Many exothermic reactions occur in the refineries that also produce waste heat. Some modern refineries have highly integrated systems that recover heat from one process to use in other processes. However, still many refineries and their operations release high-temperature waste heat, but lack efficient WHRS to recover it for different applications. The growing oil & gas industries in the Asia-Pacific region, and increasing oil production in the Middle East & Africa is driving the demand of WHRS in petroleum refining industry globally.

Chemical

WHRS have been successfully used in the chemical industry for processes such as industrial gases, alkalis and chlorine, cyclic crudes, and intermediates, including ethylene, propylene, benzene/toluene, plastics materials, synthetic rubber, synthetic organic fibers, and agricultural chemicals. High efficiency, operational productivity, and utilization of specialized and customized equipment have made WHRS an important component in chemical production processes. Therefore, growth in the chemical industry is one of the driving factors of the global WHRS market.

Metal Production

Heavy metals manufacturing and refining involves many high-temperature processes from which waste heat can be recovered. Heavy metal foundries commonly recover clean gaseous streams. However, recovering waste heat from heavily contaminated exhaust gas sources such as coke ovens, blast furnaces, basic oxygen furnaces, and electric arc furnaces continue to present a challenge for economical functioning of WHRS. Other sources of waste heat include melting furnace exhaust, ladle preheating, core baking, pouring, shot blasting, castings cooling, heat treating, and quenching. The heat recovered from these sources is used in steam and electricity generation in and is further used as fuel in other processes. This helps the low revenue generating metal industry to boost its energy efficiency, and hence reduce operating costs.  The demand of WHRS is increasing in metal production segment, as the metal industry is growing heavily in all the regions.

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The major restraints of the market are slow growth of the construction sector in Europe and high cost of these systems. Companies are focusing on various strategies to strengthen their market position such as supply contracts, agreements, and partnerships & collaborations. Supply contract is the most preferred strategy adopted by the key market players to sustain in this highly competitive market. The emerging technologies provide high growth opportunities to WHR system manufacturers. Increase in energy requirements in emerging economies such as China, India, and Brazil also plays an important role in fueling the demand. Some of the important manufacturers are ABB Ltd. (Switzerland), Amec Foster Wheeler (U.K.), Ormat Technologies Inc. (U.S.), General Electric Co. (U.S.), Mitsubishi Heavy Industries Ltd. (Japan), Echogen Power Systems Inc. (U.S.), Econotherm Ltd. (U.K.), Thermax Limited (India), Siemens AG (Germany), and Cool Energy Inc. (Colorado). Companies in this market compete with each other with respect to prices and product offerings to meet the market requirements.

Factors that Affect on the Waste Heat Recovery System Market in Upcoming Years

The market size of waste heat recovery (WHR) system was USD 44.14 billion in 2015 and is projected to reach USD 65.87 billion by 2021, at a CAGR of 6.90% between 2016 and 2021. The major players adopted key strategies such as supply contract and agreements to increase their market share and revenue. Other major growth strategies adopted by WHRS manufacturers are acquisitions and partnership & collaboration that help the company strengthen their position in the WHR system market.

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Major players operating in the WHR system market are ABB Ltd. (Switzerland), Amec Foster Wheeler (U.K.), Ormat Technologies Inc. (U.S.), General Electric Co. (U.S.), Mitsubishi Heavy Industries Ltd. (Japan), Echogen Power Systems Inc. (U.S.), Econotherm Ltd. (U.K.), Thermax Limited (India), Siemens AG (Germany), and Cool Energy Inc. (Colorado).

Ormat Technologies Inc. (U.S.) is one of the leading WHR system manufacturers, globally. The company has been focusing on supply contracts to maintain its leading position in the market. For instance, in November 2014, Ormat Technologies secured a contract of USD22.3 million from Utah Associated Municipal Power Systems (U.S.) for engineering, procurement, and construction at the Kern River Gas Transmission Company’s Veyo natural gas compressor station in southern Utah. This contract included installation of air-cooled Ormat Energy Converter, which will generate power using the recovered heat.

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Amec Foster Wheeler (U.K.) is another major player in the WHR system market. The company has been focusing on supply contracts as part of its strategic development activities. In April 2016, Amec Foster Wheeler secured a contract from Cleco Corporation (U.S.) to design and supply a complete 50 MWe power island in Louisiana, US. This waste heat generated from the production of carbon black, used in items such as tires and industrial rubber products will be used to produce steam, which will in turn create electricity that can be sold and sent to the grid. This contract included supplying the power plant’s major equipment, including steam turbine generator, WHR steam generator, feedwater heater, condenser, deaerator, pumps, and cooling tower.

This report provides a detailed analysis of the WHR system market and segments the same on the basis application, end-use industry, and region. Based on application, the market has been segmented into preheating, steam & electricity generation, and others. Based on end-use industry, the market has been segmented as petroleum refining, metal production, cement, chemical, paper & pulp, and others. Based on region, the market has been segmented into North America, Europe, Asia-Pacific, the Middle East & Africa, and South America.

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