首頁(yè) > 資料下載 > 瓦巴門(mén)地區CO2封存工程水庫模擬Reservoir Modelling Wabamun Area CO2 Sequestration Project (WASP)
瓦巴門(mén)地區CO2封存工程水庫模擬Reservoir Modelling Wabamun Area CO2 Sequestration Project (WASP) 瓦巴門(mén)地區CO2封存工程水庫模擬Reservoir Modelling Wabamun Area CO2 Sequestration Project (WASP)

瓦巴門(mén)地區CO2封存工程水庫模擬Reservoir Modelling Wabamun Area CO2 Sequestration Project (WASP)

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  • 更新時(shí)間:2021-09-09
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盡管人們認識到深層含水層具有非常大的儲存能力,但是 二氧化碳封存,目前尚不清楚最好的方法是用大量 局部注射區域內的CO2在較短的時(shí)間內。用于 研究貯藏性能時(shí),CO2注入速率為1Mt/年。這個(gè)比率很低。 當與存儲技術(shù)在管理中扮演重要角色所需的規模相比較時(shí) 全球排放。在這份報告中,我們研究了將大量CO2注入 Nisku含水層,位于加拿大艾伯塔省瓦巴門(mén)湖地區[1]。在這個(gè)地區, 大型CO2排放源包括四個(gè)燃煤發(fā)電廠(chǎng),排放量在3-3之間。 年產(chǎn)6公噸,50年累計排放20公噸或1公噸。這個(gè)數字,1Gt,是 考慮WASP的目標容量。尼斯庫含水層被認為是 未來(lái)的封存項目。

Although it is recognized that deep aquifers offer the potential for very large storage capacities for CO2 sequestration, it is not clear what the best method is to fill these aquifers with large volumes of CO2 in a relatively short period of time within localized injection areas. The typical benchmark for the rate of CO2 injection is 1 Mt/year when studying storage performance. This rate is very low when compared to the scale needed for storage technology to play a significant role in managing global emissions. In this report we study the feasibility of injecting large volumes of CO2 into the Nisku aquifer, which is located in the Wabamun Lake area in Alberta, Canada [1]. In this area, large CO2 emitters include four coal-fired power plants with emissions that range between 3 and 6 Mt/year each, which together emit ~ 20 Mt/y or ~ 1 Gt over 50 years. This number, 1 Gt, is considered the target capacity for WASP. The Nisku aquifer is believed to be a suitable choice for future sequestration projects.

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