生物质能源:利用地理信息技术评估可持续性

Q3 Social Sciences
M. Hirschmugl, Carina Sobe, L. Traverso, David Cifuentes, A. Calera, C. Khawaja, M. Colangeli
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引用次数: 0

摘要

可持续发展目标具体目标7.2要求到2030年大幅增加可再生能源在全球能源结构中的份额。必须评估所有部门的可再生能源生产对实现这一目标的贡献。在过去的几年里,由于“食物与燃料”的争论或报道的不可持续的做法,用于能源生产的生物质获得了不好的声誉。bioplata - eu项目利用地理信息技术与可持续性和经济专业知识相结合,更准确地评估生物能源价值链的可持续性。该项目有三个主要部分:首先,绘制一幅泛欧边缘、未充分利用和受污染(MUC)土地的地图,这些土地可能用于生物能源生产。这是通过利用遥感时间序列、现有哥白尼和其他空间数据集来实现的。第二,建立基于网络的地理信息系统(GIS),将MUC土地与评估可持续性所需的其他重要信息源连接起来。第三,可持续性评估不仅包括土壤、水或温室气体排放等典型的社会和环境可持续性指标,还包括就业等经济可持续性指标。考虑到可持续发展目标具体目标12.A,通过整合创新融资解决方案来解决当前的融资障碍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Energy from Biomass: Assessing Sustainability by Geoinformation Technology
Sustainable Development Goal (SDG) target 7.2 requests a substantial increase in the share of renewable energy in the global energy mix by 2030. Renewable energy production in all sectors has to be evaluated for its contribution to reach this target. Biomass for energy production has gained a bad reputation over the past years due to the “food versus fuel” debate or reported unsustainable practices. The BIOPLAT-EU project is employing geoinformation technologies combined with sustainability and economic expertise to more accurately evaluate the sustainability of bioenergy value chains. The project has three main parts: first, the generation of a pan-European map of marginal, underutilized, and contaminated (MUC) lands potentially usable for bioenergy production. This is realized by employing remote sensing time series, existing Copernicus, and other spatial data sets. Second, the generation of a web-based geographical information system (GIS) connecting the MUC lands with other important information sources necessary to assess sustainability. Thisrd, the sustainability assessment includes not only typical social and environmental sustainability indicators like soil, water, or greenhouse gas emissions, but also economic sustainability indicators like employment. Current financial barriers are addressed by integrating innovative financing solutions considering SDG target 12.A.
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来源期刊
GI_Forum
GI_Forum Earth and Planetary Sciences-Computers in Earth Sciences
CiteScore
1.10
自引率
0.00%
发文量
9
审稿时长
23 weeks
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