首頁(yè) > 資料下載 > 燃燒后碳捕獲發(fā)電技術(shù)的現狀與展望 最終報告Current and Future Technologies for Power Generation with PostCombustion Carbon
燃燒后碳捕獲發(fā)電技術(shù)的現狀與展望 最終報告Current and Future Technologies for Power Generation with PostCombustion Carbon 燃燒后碳捕獲發(fā)電技術(shù)的現狀與展望 最終報告Current and Future Technologies for Power Generation with PostCombustion Carbon

燃燒后碳捕獲發(fā)電技術(shù)的現狀與展望 最終報告Current and Future Technologies for Power Generation with PostCombustion Carbon

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  • 更新時(shí)間:2021-09-09
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美國國家能源技術(shù)實(shí)驗室(NETL)正在資助旨在改善能源狀況的研究。 適應 使用燃燒后碳捕獲技術(shù)。本研究的目的是為了支持 美國能源部通過(guò)完成一項“研發(fā)”的碳捕獲和高級燃燒研發(fā)項目 采用燃燒后碳捕獲的PC發(fā)電廠(chǎng)的“路徑”研究。路徑 以第一代超臨界核電站為開(kāi)端,具有燃燒后捕獲的表示 今天將提供的技術(shù)。在 這項研究包括三個(gè)目前提供的燃燒后捕獲 反映捕獲技術(shù)的短期增強的技術(shù)。兩次高級捕獲 在研究和開(kāi)發(fā)階段的技術(shù)被選擇用于評估 達到能源部的目標,即為碳捕獲的PC設備實(shí)現電力成本,以及 CO2壓縮量<35%時(shí),PC裝置無(wú)捕集。研究進(jìn)展 該途徑包括用于發(fā)電的蒸汽條件和CO2壓縮。 這些技術(shù)還提供了提高工廠(chǎng)效率和降低生產(chǎn)成本的機會(huì )。 電。因此,技術(shù)途徑包括捕獲技術(shù)、電力方面的進(jìn)展。 產(chǎn)生蒸汽的條件,和CO2的壓縮。這些結果代表了未來(lái)的利益。 來(lái)自一個(gè)成功的燃燒后碳捕獲技術(shù)開(kāi)發(fā)項目。結果 也為指導技術(shù)開(kāi)發(fā)以及度量和優(yōu)先排序 研究開(kāi)發(fā)的貢獻。

The National Energy Technology Laboratory (NETL) is funding research aimed at improving the performance and reducing the cost of conventional pulverized coal (PC) power plants adapted to use post-combustion carbon capture technologies. The objective of this study is to support DOE’s Carbon Capture and Advanced Combustion R&D Programs by completing an “R&D Pathway” study for PC power plants that employ post-combustion carbon capture. The pathway begins with a 1st generation supercritical plant with a representation of a post-combustion capture technology that would be offered today. The post-combustion capture technologies considered in this study include representations of three currently offered post-combustion capture technologies that reflect near-term enhancements in capture technology. Two advanced capture technologies in the research and development phase were selected to evaluate the potential for meeting the DOE goal of achieving a cost of electricity for a PC plant with carbon capture and CO2 compression that has < 35% increase over the PC plant without capture. Advances in the steam conditions for power generation and the CO2 compression are included in the pathway. These technologies also provide opportunities to increase plant efficiency and reduce the cost of electricity. The technology pathways thus include advances in the capture technology, the power generation steam conditions, and the CO2 compression. The results represent the future benefits from a successful post-combustion carbon capture technology development program. The results also provide a basis to guide technology development and to measure and prioritize the contribution of research and development.

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