当前位置: X-MOL 学术AlChE J. › 论文详情
Our official English website, www.x-mol.net, welcomes your feedback! (Note: you will need to create a separate account there.)
Optimal European cooperative supply chains for carbon capture, transport, and sequestration with costs share policies
AIChE Journal ( IF 3.7 ) Pub Date : 2019-12-16 , DOI: 10.1002/aic.16872
Federico d'Amore 1 , Fabrizio Bezzo 1
Affiliation  

In the past decades, CO2 constituted nearly the 80% of anthropogenic greenhouse gases emissions therefore, global actions are needed to tackle the increase of carbon concentration in the atmosphere. CO2 (carbon) capture and storage has been highlighted among the most promising options to decarbonize the energy and industry sectors. Considering a large‐scale infrastructure at European level, economic cooperation has been highlighted as a key requirement to relieve single countries from too high risk and commitment. This article proposes an economic optimization for cooperative supply chains for CO2 capture and storage, by adopting policies that balance the spread of costs among countries, according to local characteristics in terms of population, CO2 emissions, and macroeconomic outcome. Results show that the additional European investment for cooperation (max. +2.6% with respect to a noncooperative network) should not constitute a barrier toward the installation and operation of such more effective network designs.

中文翻译:

最优的欧洲合作供应链,用于碳捕集,运输和封存,并采用成本分担政策

在过去的几十年中,CO 2几乎占人为温室气体排放量的80%,因此,需要采取全球行动来应对大气中碳浓度的增加。CO 2(碳)的捕获和存储已成为能源和工业部门脱碳的最有希望的选择之一。考虑到欧洲范围内的大规模基础设施,经济合作已被强调为减轻单个国家过高的风险和承诺的一项关键要求。本文根据当地人口(CO)的特点,通过采取平衡国家间成本分摊的政策,提出了一种用于CO 2捕集和封存的合作供应链的经济优化方法。2排放和宏观经济结果。结果表明,欧洲在合作方面的额外投资(相对于非合作网络,最多为+ 2.6%)不应构成安装和运营这种更为有效的网络设计的障碍。
更新日期:2019-12-17
down
wechat
bug