Add to ORKGCarbon Capture and Storage is a promising technique for mitigating greenhouse gas emissions that involves separating CO2 from other emitted gases, transporting and storing it in a geologic formation. Pipeline transport of CO2 is generally the preferred method for long-term onshore transport. However, pipeline operations and related costs are impacted by flow rate variability. Hence, this thesis develops and investigates stochastic pipeline design methods suitable for pipelines operating under variable CO2 flow rates. First, the generation rate of CO2 at power plants with potential for capture is analysed stochastically, and the most suitable probability distribution function for modelling the related CO2 flow rates is identified. This sele...
AbstractThis paper shows the effects of storage capacity on the selection of least cost CO2 transpor...
AbstractThis paper shows the effects of storage capacity on the selection of least cost CO2 transpor...
A methodology based on the multi-objective optimisation of economic and environmental aspects is pre...
AbstractWide deployment of carbon capture and storage (CCS) will require extensive transportation in...
In this study, a new cost model is developed for CO2 pipeline transport, which starts with the physi...
AbstractA significant cost for carbon capture and storage (CCS) can be associated with transporting ...
It is widely recognized that Carbon Capture and Storage (CCS) may be playing a key role in decarboni...
AbstractStudies of the cost of carbon capture and storage (CCS) frequently make a single set of assu...
© 2017 Elsevier Ltd Carbon capture, utilization, storage (CCUS) technology is an effective means to ...
For large volumes of carbon dioxide (CO₂) onshore and offshore transportation, pipeline is considere...
As carbon capture and storage (CCS) is considered as one of the options for reducing atmospheric emi...
There is a need to accurately design pipelines to meet the expected increase in the construction of ...
AbstractIn this article, an economic optimization tool is developed taking into account different st...
In this article, an economic optimization tool is developed taking into account different steel grad...
AbstractThis paper shows the effects of storage capacity on the selection of least cost CO2 transpor...
AbstractThis paper shows the effects of storage capacity on the selection of least cost CO2 transpor...
A methodology based on the multi-objective optimisation of economic and environmental aspects is pre...
AbstractWide deployment of carbon capture and storage (CCS) will require extensive transportation in...
In this study, a new cost model is developed for CO2 pipeline transport, which starts with the physi...
AbstractA significant cost for carbon capture and storage (CCS) can be associated with transporting ...
It is widely recognized that Carbon Capture and Storage (CCS) may be playing a key role in decarboni...
AbstractStudies of the cost of carbon capture and storage (CCS) frequently make a single set of assu...
© 2017 Elsevier Ltd Carbon capture, utilization, storage (CCUS) technology is an effective means to ...
For large volumes of carbon dioxide (CO₂) onshore and offshore transportation, pipeline is considere...
As carbon capture and storage (CCS) is considered as one of the options for reducing atmospheric emi...
There is a need to accurately design pipelines to meet the expected increase in the construction of ...
AbstractIn this article, an economic optimization tool is developed taking into account different st...
In this article, an economic optimization tool is developed taking into account different steel grad...
AbstractThis paper shows the effects of storage capacity on the selection of least cost CO2 transpor...
AbstractThis paper shows the effects of storage capacity on the selection of least cost CO2 transpor...
A methodology based on the multi-objective optimisation of economic and environmental aspects is pre...
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