Considering Carbon Capture and Storage in Electricity Generation Expansion Planning

Saboori, Hedayat; Hemmati, Reza

doi:10.1109/tste.2016.2547911

Cited by 126 publications

(76 citation statements)

References 18 publications

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“…Other advantages of ESS include power quality improvement, mitigation of environmental impact, congestion management, and system balancing . ESS is either classified based on storage duration (short and long term), or the storage medium . The long‐term ESS is a centralised relatively large storage installation suitable for storing large amounts of energy in the range of a few MW to hundreds of MW.…”

Section: Environmental Considerationsmentioning

confidence: 99%

“…Such ESS can supply energy with more than 8 hours discharge durations. Examples of such systems are pumped hydraulic storage, large‐scale batteries, compressed air energy storage, and pumped hydro storage . Short‐term ESS can only store energy for fewer hours with smaller energy storage capacity.…”

Section: Environmental Considerationsmentioning

confidence: 99%

“…Short‐term ESS can only store energy for fewer hours with smaller energy storage capacity. Examples of short term ESS technologies include flywheel energy storage, battery ESS, superconducting magnetic energy storage, supercapacitor, and ultracapacitor energy storage . Depending on the storage medium, ESSs are categorised either as mechanical, chemical, or electrical storage systems .…”

Section: Environmental Considerationsmentioning

confidence: 99%

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A comprehensive state‐of‐the‐art survey on power generation expansion planning with intermittent renewable energy source and energy storage

2019

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Summary Generation expansion planning (GEP) is a power plant mix problem that identifies what, where, when, and how new generating facilities should be installed and when old units be retired over a specific planning horizon. GEP ensures that the quantity of electricity generated matches the electricity demand throughout the planning horizon. This kind of planning is of importance because most production and service delivery is dependent on availability of electricity. Over the years, the traditional GEP approaches have evolved to produce more realistic models and new solution algorithms. For example, with the agitation for green environment, the inclusion of renewable energy plants and energy storage in the traditional GEP model is gradually gaining attention. In this regards, a handful of research has been conducted to identify the optimal expansion plans based on various energy‐related perspectives. The appraisal and classification of studies under these topics are necessary to provide insights for further works in GEP studies. This article therefore presents a comprehensive up‐to‐date review of GEP studies. Result from the survey shows that the integration of demand side management, energy storage systems (ESSs), and short‐term operational characteristics of power plants in GEP models can significantly improve flexibility of power system networks and cause a change in energy production and the optimal capacity mix. Furthermore, this article was able to identify that to effectively integrate ESS into the generation expansion plan, a high temporal resolution dimension is essential. It also provides a policy discussion with regard to the implementation of GEP. This survey provides a broad background to explore new research areas in order to improve the presently available GEP models.

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Section: Environmental Considerationsmentioning

confidence: 99%

Section: Environmental Considerationsmentioning

confidence: 99%

Section: Environmental Considerationsmentioning

confidence: 99%

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A comprehensive state‐of‐the‐art survey on power generation expansion planning with intermittent renewable energy source and energy storage

2019

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“…The investment and operational costs of existing and new generating units are presented by (1). It should be remarked that X t j is one of the design variables of the problem.…”

Section: Investment and Operational Costs Of Existing And New Generatmentioning

confidence: 99%

Multistage generation expansion planning incorporating large scale energy storage systems and environmental pollution

2016

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a b s t r a c tThis paper addresses a multistage electricity generation expansion planning (GEP) incorporating largescale energy storage systems (ESSs). The proposed coordinated GEP-ESS planning aims at minimizing the planning cost and environmental pollution at the same time, while it considers large-scale ESSs. Problem is expressed as a mixed-integer nonlinear programming and solved using PSO algorithm. Problem is solved subject to practical constraints of the network. ESS capacities are installed to support peak load level and reducing planning cost and environmental pollution. A typical test system including several existing and candidate generating units is considered to evaluate the proposed methodology. ESSs with various capacities are considered as candidate ESSs. Considering a large number of generating units and ESSs capacities increases the flexibility of the planning. Simulation results demonstrate that utilizing ESSs significantly reduces GEP cost as well as decreases the environmental pollution.

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“…Basically, CCS is an approach through which CO 2 is captured from large industrial sources, such as gas turbines in power plants, and deposited securely into safe locations, such as subterranean sites, to protect the global environment [5]. Oxyfuel (OF) combustion is a promising technique which can be combined with CCS to enhance the combustion efficiency for the power cycle [6].…”

Section: Introductionmentioning

confidence: 99%

CO2-argon-steam oxy-fuel (CARSOXY) combustion for CCS inert gas atmospheres in gas turbines

Al-Doboon

Guteša

Valera‐Medina

et al. 2017

Applied Thermal Engineering

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Considering Carbon Capture and Storage in Electricity Generation Expansion Planning

Cited by 126 publications

References 18 publications

A comprehensive state‐of‐the‐art survey on power generation expansion planning with intermittent renewable energy source and energy storage

A comprehensive state‐of‐the‐art survey on power generation expansion planning with intermittent renewable energy source and energy storage

Multistage generation expansion planning incorporating large scale energy storage systems and environmental pollution

CO2-argon-steam oxy-fuel (CARSOXY) combustion for CCS inert gas atmospheres in gas turbines

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