航运中的零碳推进-基于马蒂斯- ship模型的氢和风能技术发展情景

IF 0.6 Q4 ENGINEERING, MARINE International Shipbuilding Progress Pub Date : 2020-07-08 DOI:10.3233/isp-190269
Jonathan Köhler
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引用次数: 6

摘要

本文介绍了MATSSE-SHIP模型,用于说明航运技术变革的长期情景。它应用了当前的可持续创新理论——“过渡理论”,并使用了一种基于主体的建模(ABM)方法,该方法明确地代表了具有不同决策标准的一系列决策者。它为新船舶的投资决策建模,专注于动力传动系的选择,并生成一系列推进技术份额的时间路径。产生了两种情景来说明氢在2050年前进入航运主要市场的途径:1)如果当前的SO x/NO x立法没有导致液化天然气的大规模采用,并且预计中期内会加强气候变化政策,那么风能/H 2联合发电系统就会起飞,因为它们可以证明温室气体减排的成本节约。对高功率应用的需求可能会导致生物燃料的使用,因为它们可以显著减少温室气体排放,同时不需要新的燃料库基础设施或改变运营模式。2) 如果除了这些发展之外,人们还接受集装箱运输中向较低速度转变的操作,并且生物燃料的采用仍然有限(例如,由于供应有限和燃料成本高),那么风/H2联合推进系统可能是2050年的主要替代方案。到2050年,高功率装置将由化石燃料覆盖,从长远来看,电力到天然气/液体技术正在开发中。
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Zero carbon propulsion in shipping – scenarios for the development of hydrogen and wind technologies with the MATISSE-SHIP model
This paper introduces the MATISSE-SHIP model for illustrative long term scenarios of technical change in shipping. It applies current theory for sustainable innovation – ‘transition theory’ – and uses an agent-based modelling (ABM) approach that explicitly represents a range of decision makers with different decision criteria. It models investment decisions for new ships, concentrating on the choice of power train and generates time paths of shares of a range of propulsion technologies. Two scenarios were generated to illustrate pathways under which hydrogen achieves a major market in shipping by 2050: 1) If current SO x /NO x legislation does not lead to the large scale adoption of LNG and there is an expectation of strengthened climate change policy in the medium term, wind/H 2 combined power systems take off, as they can demonstrate cost savings with GHG emissions reductions. The need for high power appli- cations may lead to the uptake of biofuels as they can provide significant reductions in GHG emissions, while not requiring new bunker infrastructure or changes in operating patterns. 2) If, in addition to these developments, there is acceptance of changes in operations towards lower speeds in container shipping and biofuels remain limited in their adoption (e.g. due to limited supply and high fuel costs), combined wind/H2 propulsion systems could be the main alternative to 2050. High power installations are then covered by fossil fuels to 2050, with Power to Gas/Liquid technologies being developed in the longer term.
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来源期刊
CiteScore
2.60
自引率
0.00%
发文量
8
期刊介绍: The journal International Shipbuilding Progress was founded in 1954. Each year four issues appear (in April, July, September and December). Publications submitted to ISP should describe scientific work of high international standards, advancing subjects related to the field of Marine Technology, such as: conceptual design structural design hydromechanics and dynamics maritime engineering production of all types of ships production of all other objects intended for marine use shipping science and all directly related subjects offshore engineering in relation to the marine environment ocean engineering subjects in relation to the marine environment
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