Environmental and Economic Performance of CO2-Based Methanol Production Using Long-Distance Transport for H2 in Combination with CO2 Point Sources: A Case Study for Germany

• Main Authors: Bringezu, S. (Author), Kaiser, S. (Author), Mostert, C. (Author), Siems, F. (Author)
• Format: Article
• Language: English
• Published: MDPI 2022
• Subjects: Carbon dioxide; Chemical industry; CO2-based methanol; Cost benefit analysis; Cost effectiveness; Cost-efficient; Costs; defossilization; Defossilization; Economic analysis; Economic assessments; environmental and economic assessment; Environmental and economic performance; Environmental assessment; Global warming; H2 import; Hydrocarbons; Life cycle; Long-distance transport; Methanol; Methanol production; Offshore oil well production; Pipelines; Point-sources; Ships; Waste heat; Wind power
• Online Access: View Fulltext in Publisher

 The use of CO2-based hydrocarbons plays a crucial role in reducing the climate footprint for several industry sectors, such as the chemical industry. Recent studies showed that regions which are favorable for the production of CO2-based hydrocarbons from an energy perspective often do not provide concentrated point sources for CO2, which leads to an increased environmental impact due to the higher energy demand of direct air capture processes. Thus, producing H2 in regions with high renewable power potential and transporting it to industrialized regions with concentrated CO2 point sources could provide favorable options for the whole process chain. The aim of this study is to analyze and compare pathways to produce CO2-based methanol in Germany using a local CO2 point source in combination with the import of H2 per pipeline or per ship as well as H2 produced in Germany. The environmental and economic performance of the pathways are assessed using life cycle assessment and cost analysis. As environmental indicators, the climate, material, water, and land footprints were calculated. The pathway that uses H2 produced with electricity from offshore wind parks in Germany shows the least environmental impacts, whereas the import via pipeline shows the best results among the importing pathways. The production costs are the lowest for import via pipeline now and in the near future. Import via ship is only cost-efficient in the status quo if waste heat sources are available, but it could be more competitive in the future if more energy and cost-efficient options for regional H2 distribution are available. It is shown that the climate mitigation effect is more cost-effective if the H2 is produced domestically or imported via pipeline. Compared to the import of CO2-based methanol, the analyzed H2 import pathways show a comparable (pipeline) or worse environmental and economic performance (ship). © 2022 by the authors. Licensee MDPI, Basel, Switzerland.