Scaling carbon removal systems: deploying direct air capture amidst Canada’s low-carbon transition

IF 3.3 Q2 ENVIRONMENTAL SCIENCES
Stephanie Rose Cortinovis, Neil Craik, Juan Moreno-Cruz, Kasra Motlaghzadeh, Vanessa Schweizer
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引用次数: 0

Abstract

Carbon dioxide removal (CDR) technologies, such as direct air carbon capture and storage (DACCS), will be critical in limiting the rise of the average global temperature over the next century. Scaling up DACCS technologies requires the support of a complex array of policies and infrastructure across multiple overlapping policy areas, such as climate, energy, technology innovation and resource management. While the literature on DACCS and other CDR technologies acknowledges the path-dependent nature of policy development, it has tended to focus on abstract policy prescriptions that are not rooted in the specific political, social and physical (infrastructural) context of the implementing state. To address this gap, this paper provides a country-level study of the emerging DACCS policy regime in Canada. Drawing on the existing literature that identifies idealized (acontextual) policy objectives that support DACCS development and effective regulation, we identify the actionable policy objectives across six issue domains: general climate mitigation strategies; energy and resource constraints; carbon storage and transport regulation and infrastructure; financing scale-up and supporting innovation; removal and capture technology availability and regulation; and addressing social acceptability and public interest. Using a database of Canadian climate policies (n = 457), we identify policies within the Canadian (federal and provincial) policy environment that map to the idealized policy objectives within each of these domains. This exercise allows us to analyze how key policy objectives for DACCS development are represented within the Canadian system, and enables us to identify potential niches, and landscape influences within the system, as well as gaps and potential barriers to the system transition process. This paper contributes to our understanding of national DACCS policy development by providing a framework for identifying components of the DAC system and linking those components to desired policy outcomes and may provide a basis for future cross-country comparisons of national-level DACCS policy.
扩展碳清除系统:在加拿大的低碳转型中部署直接空气捕集技术
二氧化碳清除(CDR)技术,如直接空气碳捕集与封存(DACCS),对于限制下一世纪全球平均气温的上升至关重要。推广 DACCS 技术需要一系列复杂的政策和基础设施的支持,涉及多个重叠的政策领域,如气候、能源、技术创新和资源管理。尽管有关 DACCS 和其他 CDR 技术的文献承认政策制定的路径依赖性,但它们往往侧重于抽象的政策规定,而不是植根于实施国的具体政治、社会和物理(基础设施)背景。为了弥补这一不足,本文对加拿大新兴的 DACCS 政策体系进行了国家层面的研究。现有文献确定了支持 DACCS 发展和有效监管的理想化(无背景)政策目标,我们借鉴了这些文献,确定了六个问题领域的可操作政策目标:总体气候减缓战略;能源和资源限制;碳储存和运输监管及基础设施;为扩大规模和支持创新提供资金;去除和捕获技术的可用性和监管;以及解决社会可接受性和公众利益问题。利用加拿大气候政策数据库(n = 457),我们确定了加拿大(联邦和省)政策环境中与上述各领域理想化政策目标相对应的政策。这项工作使我们能够分析 DACCS 发展的关键政策目标在加拿大系统中的体现,并使我们能够识别系统中的潜在利基和景观影响,以及系统过渡过程中的差距和潜在障碍。本文为确定 DAC 系统的组成部分并将这些组成部分与理想的政策成果联系起来提供了一个框架,从而有助于我们了解国家 DACCS 政策的发展情况,并为今后对国家级 DACCS 政策进行跨国比较奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Frontiers in Climate
Frontiers in Climate Environmental Science-Environmental Science (miscellaneous)
CiteScore
4.50
自引率
0.00%
发文量
233
审稿时长
15 weeks
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