This 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. A worst-case MILP formulation and a robust stochastic two-stage MILP formation are proposed to handle interval and stochastic uncertainties, respectively. Then, two illustrative case studies are solved to demonstrate the effectiveness of the proposed models for planning CCS deployment under uncertainty. © 2013 American Chemical Society
In this work, we analyze the effect of demand uncertainty on the multi-objective optimization of che...
Concern is growing that business enterprises focus primarily on their economic activities while disr...
This paper addresses the design and planning of integrated biorefineries supply chain under uncertai...
Carbon capture and storage (CCS) involves capturing relatively pure carbon dioxide (CO2) from gaseou...
Carbon capture and storage (CCS) is widely considered to be an essential technology for reducing car...
Carbon capture and storage (CCS) is widely considered to be an essential technology for reducing car...
A multiperiod stochastic programming model is developed for planning a carbon capture and storage (C...
Carbon capture and storage is a method for emissions reductions that can be applied to both the elec...
MasterCarbon Capture and Storage (CCS) is a potential technology which is effective in reducing CO2 ...
A multiperiod stochastic programming model is developed for planning a carbon capture and storage (C...
We present a stochastic decision-making algorithm for the design and operation of a carbon capture a...
Carbon capture and storage is considered a key option for decarbonising the energy sector. However, ...
This study presents a decision making tool for risk management of a carbon capture utilization and s...
A multistage stochastic optimization model is presented to address the scheduling of supply chains w...
Deterministic whole system multi-stage optimisation frameworks provide valuable insights into the co...
In this work, we analyze the effect of demand uncertainty on the multi-objective optimization of che...
Concern is growing that business enterprises focus primarily on their economic activities while disr...
This paper addresses the design and planning of integrated biorefineries supply chain under uncertai...
Carbon capture and storage (CCS) involves capturing relatively pure carbon dioxide (CO2) from gaseou...
Carbon capture and storage (CCS) is widely considered to be an essential technology for reducing car...
Carbon capture and storage (CCS) is widely considered to be an essential technology for reducing car...
A multiperiod stochastic programming model is developed for planning a carbon capture and storage (C...
Carbon capture and storage is a method for emissions reductions that can be applied to both the elec...
MasterCarbon Capture and Storage (CCS) is a potential technology which is effective in reducing CO2 ...
A multiperiod stochastic programming model is developed for planning a carbon capture and storage (C...
We present a stochastic decision-making algorithm for the design and operation of a carbon capture a...
Carbon capture and storage is considered a key option for decarbonising the energy sector. However, ...
This study presents a decision making tool for risk management of a carbon capture utilization and s...
A multistage stochastic optimization model is presented to address the scheduling of supply chains w...
Deterministic whole system multi-stage optimisation frameworks provide valuable insights into the co...
In this work, we analyze the effect of demand uncertainty on the multi-objective optimization of che...
Concern is growing that business enterprises focus primarily on their economic activities while disr...
This paper addresses the design and planning of integrated biorefineries supply chain under uncertai...