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An optimization‐based CCUS source‐sink matching model for dynamic planning of CCUS clusters
Greenhouse Gases: Science and Technology, 2022AbstractCarbon capture, utilization and storage (CCUS) is a critical technology option in achieving large‐scale CO2 mitigation for power and industrial sectors. A full‐chain CCUS cluster could be formed based on numerous scattered capture sources and one or more storage sites connected by a pipeline network. Reasonable source‐sink matching planning for
Qian Wu +3 more
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The energy-saving study of water heater based on source-sink matching principle
Energy, 2020Abstract Aiming at the energy-saving of water heater, a novel technology which can enhance thermal insulation and improve energy efficiency simultaneously has been proposed, and its source-sink matching strategy has been investigated in this study. A source-sink heat transfer device is designed, and the optimal installment position of this device has
Jikang Wang +5 more
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Development and application of a multi-stage CCUS source–sink matching model
Applied Energy, 2017Abstract To achieve the targets in the Paris Climate Change Agreement, carbon capture, utilization and storage (CCUS) will be one of the critical carbon mitigation technologies. For China, the biggest carbon emitter with coal-dominated energy structure, CCUS is expected to play more and more important roles for carbon emissions reduction.
Liang Sun, Wenying Chen
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Optimal Source–Sink Matching in Carbon Capture and Storage Systems under Uncertainty
Industrial & Engineering Chemistry Research, 2013This study addresses the robust optimal source–sink matching in carbon capture and storage (CCS) supply chains under uncertainty. A continuous-time uncertain mixed-integer linear programming (MILP) model with physical and temporal constraints is developed, where uncertainties are described as interval and uniform distributed stochastic parameters.
Yi-Jun He +5 more
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The influence of imperfect matching habitat choice on evolution in source–sink environments
Evolutionary Ecology, 2015Studies of evolution in source–sink environments can illuminate when to expect niche conservatism, versus niche evolution. A species can persist in habitats outside its ecological niche (sinks, where mean fitness
Robert D. Holt, Michael Barfield
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Continuous-Time Optimization Model for Source–Sink Matching in Carbon Capture and Storage Systems
Industrial & Engineering Chemistry Research, 2012Carbon capture and storage (CCS) is widely considered to be an essential technology for reducing carbon dioxide (CO2) emissions from sources such as power plants.
TAN, RR +3 more
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Resources, Conservation and Recycling, 2021
Abstract Carbon capture utilization and storage is regarded as an important option to achieve deep CO2 reduction in the power sector, especially in China. An optimization model was developed without considering the CCUS costs constraints to determine the CO2 reduction potential of existing coal-fired power plants with CCUS in China from the ...
Jing-Li Fan +5 more
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Abstract Carbon capture utilization and storage is regarded as an important option to achieve deep CO2 reduction in the power sector, especially in China. An optimization model was developed without considering the CCUS costs constraints to determine the CO2 reduction potential of existing coal-fired power plants with CCUS in China from the ...
Jing-Li Fan +5 more
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A Novel Source–Sink Matching Optimization Model for Carbon Capture and Storage
Geological JournalABSTRACT In carbon capture and storage system (CCS), the task of the CO 2 source–sink matching involves optimising source–sink cluster deployment, transportation path, and pipe network layouts.
Chun‐sheng Gu +7 more
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CO2 capture and sequestration source-sink match optimization in Jing-Jin-Ji region of China
Frontiers of Energy and Power Engineering in China, 2009Carbon dioxide capture and sequestration (CCS) is considered to be an important option for climate change mitigation. A key problem for the implementation of CCS technology is the source-sink match design and optimization when considering both economic and environmental requirement.
Zhong Zheng +4 more
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Environmental Progress & Sustainable Energy, 2012
Carbon capture and storage (CCS) involves capturing relatively pure carbon dioxide (CO2) from gaseous combustion products and storing it in various reservoirs. In this work, a multiperiod mixed integer linear programming model focusing primarily on physical and temporal considerations of CO2 source–sink matching is proposed.
TAN, RR +3 more
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Carbon capture and storage (CCS) involves capturing relatively pure carbon dioxide (CO2) from gaseous combustion products and storing it in various reservoirs. In this work, a multiperiod mixed integer linear programming model focusing primarily on physical and temporal considerations of CO2 source–sink matching is proposed.
TAN, RR +3 more
openaire +2 more sources