支持到2050年美国温室气体净零排放的国家目标,两党基础设施法(BIL)授权投资于碳捕集和封存(CCS),强调需要安全和可持续地运输二氧化碳(CO2)。旨在支持CO2管道路线规划优化和评估现有能源运输走廊,CCS管道路线规划数据库是47个公开可用的汇编,权威的地理空间数据资源,跨越连续的美国,还有一些包括阿拉斯加和夏威夷。在全面的文献综述之后,确定了关键考虑因素,其中包括州立法,已知的管道压力源,和能量,环境,和社会正义(EJSJ)考虑。数据层被分类为相关类别(即,自然灾害,边界)和分配的代表潜在社会的初步权重,环境,以及与管道布线相关的经济成本。CCS管道路线规划数据库的第一版,在能源数据交换®(EDX)上提供,包含代表保护区的分类矢量特征,公共和能源基础设施,EJSJ因素,潜在风险,联邦和州法规和立法,和自然特征,以及关联的元数据。本文提供了各个图层的详细信息,用于识别数据需求的方法,acquire,并处理不同的数据,以及对该数据库未来版本的计划增强。
Supporting the national target of net-zero greenhouse gas emissions in the United States by 2050, the Bipartisan Infrastructure Law (BIL) authorized investments into carbon capture and storage (CCS), highlighting the need for the safe and sustainable transport of carbon dioxide (CO2). Curated to support CO2 pipeline route planning optimization and assess existing energy transport corridors, the CCS Pipeline Route Planning Database is a compilation of 47 publicly available, authoritative geospatial data resources, spanning the contiguous U.S., and some including Alaska and Hawaii. Key considerations were identified following comprehensive literature review, which included state legislation, known pipeline stressors, and energy, environmental, and social justice (EJSJ) considerations. Data layers were sorted into relevant categories (i.e., natural hazards, boundaries) and assigned preliminary weights representing potential social, environmental, and economic costs associated with routing pipelines. Version one of the CCS Pipeline Route Planning Database, made available on the Energy Data eXchange® (EDX), contains categorized vector features representing protected areas, public and energy infrastructure, EJSJ factors, potential risks, federal and state regulations and legislation, and natural features, along with associated metadata. This paper provides details on individual layers, methods used to identify data needs, acquire, and process the disparate data, as well as planned enhancements to future versions of this database.