Carbon Capture and Storage Strategic Alliance FormedClimate Change
「Carbon Capture and Storage Strategic Alliance FormedClimate Change」於資料集「MajorEnvironmentalPolicies」由單位「行政院環境保護署」的陳小姐所提供,聯繫電話是(02)23117722#2753,(02)23117722#2756,最近更新時間為:2023-07-30 01:03:45。 欄位編號的內容是2685 , 欄位標題的內容是Carbon Capture and Storage Strategic Alliance Formed , 欄位摘要的內容是Climate Change
Carbon Capture and Storage Strategic Alliance Formed
In order to further stimulate the development of greenhouse gas emission reduction technologies in Taiwan on 28 March 2011 the EPA held a press conference to officially announce the forming of the Carbon Capture and Storage (CCS) Strategic Alliance, which combines expertise from government, industry, and academia. Taiwan's CCS Strategic Alliance is expected to begin commercial operations in 2020, a schedule in line with other CCS projects being promoted in developed nations.
CCS methods can be broken down into three stages: capturing the carbon, transporting it, and then storing it. Capturing the CO2 is done in the stack using chemical or physical means, and the CO2 is then separated from other emissions and purified. Piping, vehicles, or marine vessels are then used to transport the CO2 to places where it can be sequestered into deep geological formations or ocean masses, or bonded to minerals using chemical catalysts. According to the 2010 Energy Technology Perspectives published by the International Energy Agency, in order to reach the target of a 50% reduction in greenhouse gas emissions by 2050, CCS technologies will have to account for 19% of the reductions. Hence it is not surprising that developed nations such as the US, Australia, and Germany are engaged in strategic CCS planning and are competing with each other to invest in developing CCS technologies.
Research shows that Taiwan has excellent CO2 storage capacities both on land and at sea: The terrestrial storage capacity is estimated to be around 2.8 billion tonnes of CO2e, while the marine capacity along the coast and in the Taiwan Strait is estimated to be from 13.8~99.7 billion tonnes of CO2e. There are also rich deposits of marble and limestone along the east coast of Taiwan (approximately 300 billion tonnes). Moreover, all of Taiwan's power stations are located by the sea, and will be conducive to the development of accelerated weathering of limestone methods to sequester carbon. In short, Taiwan possesses multiple options when it comes to developing CCS technologies. To this end, in 2010 the EPA started the task of promoting CCS R&D as well as formulating relevant strategies and regulations. The EPA has also been holding a number of symposiums with other government departments to begin planning for the establishment of the CCS Strategic Alliance. To date, the organizational framework, member's duties, and timetable have been completed.
Taiwan's CCS Strategic Alliance is made up of entities from government, industry, and academia, including the Council for Economic Planning and Development, the National Science Council, Bureau of Energy, Industrial Development Bureau, Bureau of Mines, and the state-run companies Taiwan Power, China Petroleum and China Steel. Experts representing these entities have been divided into two teams working on regulatory strategies and technology promotion. A separate consultant group of experts has also been put together to give suggestions to the alliance on suitable directions for future development. Planning is now underway for a pilot project to sequester 10,000 tonnes of CO2e by 2015, and then to gradually increase this amount so that by 2020 CCS can become commercially viable in Taiwan.
The EPA states that since climate change has become an issue that concerns the very survival of humankind, it is imperative that greenhouse gas reduction technologies are developed as soon as possible. The formation of the CCS Strategic Alliance is but a first step in this direction and the EPA will continue its task of modeling and assessing related technologies. The EPA is working to gain a deeper understanding of which technologies meet the criteria of being feasible, economical, safe, and efficient in order to give commercial CCS operations in Taiwan a firm foundation on which to grow. But the growth of CCS technologies in Taiwan will require expertise from many fields, not just initial policymaking and government promotion. The EPA thus calls on the general public to take an interest in CCS, and particularly urges large corporations to help carry the torch with regards to CCS R&D as a part of the national effort to reduce greenhouse gas emissions in Taiwan. , 欄位全文的內容是Climate Change
Carbon Capture and Storage Strategic Alliance Formed
In order to further stimulate the development of greenhouse gas emission reduction technologies in Taiwan on 28 March 2011 the EPA held a press conference to officially announce the forming of the Carbon Capture and Storage (CCS) Strategic Alliance, which combines expertise from government, industry, and academia. Taiwan's CCS Strategic Alliance is expected to begin commercial operations in 2020, a schedule in line with other CCS projects being promoted in developed nations.
CCS methods can be broken down into three stages: capturing the carbon, transporting it, and then storing it. Capturing the CO2 is done in the stack using chemical or physical means, and the CO2 is then separated from other emissions and purified. Piping, vehicles, or marine vessels are then used to transport the CO2 to places where it can be sequestered into deep geological formations or ocean masses, or bonded to minerals using chemical catalysts. According to the 2010 Energy Technology Perspectives published by the International Energy Agency, in order to reach the target of a 50% reduction in greenhouse gas emissions by 2050, CCS technologies will have to account for 19% of the reductions. Hence it is not surprising that developed nations such as the US, Australia, and Germany are engaged in strategic CCS planning and are competing with each other to invest in developing CCS technologies.
Research shows that Taiwan has excellent CO2 storage capacities both on land and at sea: The terrestrial storage capacity is estimated to be around 2.8 billion tonnes of CO2e, while the marine capacity along the coast and in the Taiwan Strait is estimated to be from 13.8~99.7 billion tonnes of CO2e. There are also rich deposits of marble and limestone along the east coast of Taiwan (approximately 300 billion tonnes). Moreover, all of Taiwan's power stations are located by the sea, and will be conducive to the development of accelerated weathering of limestone methods to sequester carbon. In short, Taiwan possesses multiple options when it comes to developing CCS technologies. To this end, in 2010 the EPA started the task of promoting CCS R&D as well as formulating relevant strategies and regulations. The EPA has also been holding a number of symposiums with other government departments to begin planning for the establishment of the CCS Strategic Alliance. To date, the organizational framework, member's duties, and timetable have been completed.
Taiwan's CCS Strategic Alliance is made up of entities from government, industry, and academia, including the Council for Economic Planning and Development, the National Science Council, Bureau of Energy, Industrial Development Bureau, Bureau of Mines, and the state-run companies Taiwan Power, China Petroleum and China Steel. Experts representing these entities have been divided into two teams working on regulatory strategies and technology promotion. A separate consultant group of experts has also been put together to give suggestions to the alliance on suitable directions for future development. Planning is now underway for a pilot project to sequester 10,000 tonnes of CO2e by 2015, and then to gradually increase this amount so that by 2020 CCS can become commercially viable in Taiwan.
The EPA states that since climate change has become an issue that concerns the very survival of humankind, it is imperative that greenhouse gas reduction technologies are developed as soon as possible. The formation of the CCS Strategic Alliance is but a first step in this direction and the EPA will continue its task of modeling and assessing related technologies. The EPA is working to gain a deeper understanding of which technologies meet the criteria of being feasible, economical, safe, and efficient in order to give commercial CCS operations in Taiwan a firm foundation on which to grow. But the growth of CCS technologies in Taiwan will require expertise from many fields, not just initial policymaking and government promotion. The EPA thus calls on the general public to take an interest in CCS, and particularly urges large corporations to help carry the torch with regards to CCS R&D as a part of the national effort to reduce greenhouse gas emissions in Taiwan. , 欄位年度的內容是2011 , 欄位月份的內容是4 , 欄位卷的內容是14 , 欄位期的內容是4 , 欄位順序的內容是1 , 欄位倒序的內容是2 , 欄位分類的內容是Climate Change , 欄位標題2的內容是Carbon Capture and Storage Strategic Alliance Formed , 欄位檔案位置的內容是V14/V14-04 。
編號
2685
標題
Carbon Capture and Storage Strategic Alliance Formed
摘要
Climate Change Carbon Capture and Storage Strategic Alliance Formed In order to further stimulate the development of greenhouse gas emission reduction technologies in Taiwan on 28 March 2011 the EPA held a press conference to officially announce the forming of the Carbon Capture and Storage (CCS) Strategic Alliance, which combines expertise from government, industry, and academia. Taiwan's CCS Strategic Alliance is expected to begin commercial operations in 2020, a schedule in line with other CCS projects being promoted in developed nations. CCS methods can be broken down into three stages: capturing the carbon, transporting it, and then storing it. Capturing the CO2 is done in the stack using chemical or physical means, and the CO2 is then separated from other emissions and purified. Piping, vehicles, or marine vessels are then used to transport the CO2 to places where it can be sequestered into deep geological formations or ocean masses, or bonded to minerals using chemical catalysts. According to the 2010 Energy Technology Perspectives published by the International Energy Agency, in order to reach the target of a 50% reduction in greenhouse gas emissions by 2050, CCS technologies will have to account for 19% of the reductions. Hence it is not surprising that developed nations such as the US, Australia, and Germany are engaged in strategic CCS planning and are competing with each other to invest in developing CCS technologies. Research shows that Taiwan has excellent CO2 storage capacities both on land and at sea: The terrestrial storage capacity is estimated to be around 2.8 billion tonnes of CO2e, while the marine capacity along the coast and in the Taiwan Strait is estimated to be from 13.8~99.7 billion tonnes of CO2e. There are also rich deposits of marble and limestone along the east coast of Taiwan (approximately 300 billion tonnes). Moreover, all of Taiwan's power stations are located by the sea, and will be conducive to the development of accelerated weathering of limestone methods to sequester carbon. In short, Taiwan possesses multiple options when it comes to developing CCS technologies. To this end, in 2010 the EPA started the task of promoting CCS R&D as well as formulating relevant strategies and regulations. The EPA has also been holding a number of symposiums with other government departments to begin planning for the establishment of the CCS Strategic Alliance. To date, the organizational framework, member's duties, and timetable have been completed. Taiwan's CCS Strategic Alliance is made up of entities from government, industry, and academia, including the Council for Economic Planning and Development, the National Science Council, Bureau of Energy, Industrial Development Bureau, Bureau of Mines, and the state-run companies Taiwan Power, China Petroleum and China Steel. Experts representing these entities have been divided into two teams working on regulatory strategies and technology promotion. A separate consultant group of experts has also been put together to give suggestions to the alliance on suitable directions for future development. Planning is now underway for a pilot project to sequester 10,000 tonnes of CO2e by 2015, and then to gradually increase this amount so that by 2020 CCS can become commercially viable in Taiwan. The EPA states that since climate change has become an issue that concerns the very survival of humankind, it is imperative that greenhouse gas reduction technologies are developed as soon as possible. The formation of the CCS Strategic Alliance is but a first step in this direction and the EPA will continue its task of modeling and assessing related technologies. The EPA is working to gain a deeper understanding of which technologies meet the criteria of being feasible, economical, safe, and efficient in order to give commercial CCS operations in Taiwan a firm foundation on which to grow. But the growth of CCS technologies in Taiwan will require expertise from many fields, not just initial policymaking and government promotion. The EPA thus calls on the general public to take an interest in CCS, and particularly urges large corporations to help carry the torch with regards to CCS R&D as a part of the national effort to reduce greenhouse gas emissions in Taiwan.
全文
Climate Change Carbon Capture and Storage Strategic Alliance Formed In order to further stimulate the development of greenhouse gas emission reduction technologies in Taiwan on 28 March 2011 the EPA held a press conference to officially announce the forming of the Carbon Capture and Storage (CCS) Strategic Alliance, which combines expertise from government, industry, and academia. Taiwan's CCS Strategic Alliance is expected to begin commercial operations in 2020, a schedule in line with other CCS projects being promoted in developed nations. CCS methods can be broken down into three stages: capturing the carbon, transporting it, and then storing it. Capturing the CO2 is done in the stack using chemical or physical means, and the CO2 is then separated from other emissions and purified. Piping, vehicles, or marine vessels are then used to transport the CO2 to places where it can be sequestered into deep geological formations or ocean masses, or bonded to minerals using chemical catalysts. According to the 2010 Energy Technology Perspectives published by the International Energy Agency, in order to reach the target of a 50% reduction in greenhouse gas emissions by 2050, CCS technologies will have to account for 19% of the reductions. Hence it is not surprising that developed nations such as the US, Australia, and Germany are engaged in strategic CCS planning and are competing with each other to invest in developing CCS technologies. Research shows that Taiwan has excellent CO2 storage capacities both on land and at sea: The terrestrial storage capacity is estimated to be around 2.8 billion tonnes of CO2e, while the marine capacity along the coast and in the Taiwan Strait is estimated to be from 13.8~99.7 billion tonnes of CO2e. There are also rich deposits of marble and limestone along the east coast of Taiwan (approximately 300 billion tonnes). Moreover, all of Taiwan's power stations are located by the sea, and will be conducive to the development of accelerated weathering of limestone methods to sequester carbon. In short, Taiwan possesses multiple options when it comes to developing CCS technologies. To this end, in 2010 the EPA started the task of promoting CCS R&D as well as formulating relevant strategies and regulations. The EPA has also been holding a number of symposiums with other government departments to begin planning for the establishment of the CCS Strategic Alliance. To date, the organizational framework, member's duties, and timetable have been completed. Taiwan's CCS Strategic Alliance is made up of entities from government, industry, and academia, including the Council for Economic Planning and Development, the National Science Council, Bureau of Energy, Industrial Development Bureau, Bureau of Mines, and the state-run companies Taiwan Power, China Petroleum and China Steel. Experts representing these entities have been divided into two teams working on regulatory strategies and technology promotion. A separate consultant group of experts has also been put together to give suggestions to the alliance on suitable directions for future development. Planning is now underway for a pilot project to sequester 10,000 tonnes of CO2e by 2015, and then to gradually increase this amount so that by 2020 CCS can become commercially viable in Taiwan. The EPA states that since climate change has become an issue that concerns the very survival of humankind, it is imperative that greenhouse gas reduction technologies are developed as soon as possible. The formation of the CCS Strategic Alliance is but a first step in this direction and the EPA will continue its task of modeling and assessing related technologies. The EPA is working to gain a deeper understanding of which technologies meet the criteria of being feasible, economical, safe, and efficient in order to give commercial CCS operations in Taiwan a firm foundation on which to grow. But the growth of CCS technologies in Taiwan will require expertise from many fields, not just initial policymaking and government promotion. The EPA thus calls on the general public to take an interest in CCS, and particularly urges large corporations to help carry the torch with regards to CCS R&D as a part of the national effort to reduce greenhouse gas emissions in Taiwan.
年度
2011
月份
4
卷
14
期
4
順序
1
倒序
2
分類
Climate Change
標題2
Carbon Capture and Storage Strategic Alliance Formed
檔案位置
V14/V14-04
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