Planning an Energy–Water–Environment Nexus System in Coal-Dependent Regions under Uncertainties

Chen, Cong; Yu, Li; Zeng, Xin; Huang, Guohe; Li, Y. P.

doi:10.3390/en13010208

Cited by 5 publications

(3 citation statements)

References 44 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Other methods are also applied, such as Chance-constrained programming (CCP). Chen [21] used CCP to deal with the uncertainty of energy-water-environment systems in a coal-dependent region. Li [22] applied CCP to handle the uncertainties in the optimal siting and sizing of a distributed generation system.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Extreme Random Uncertainty in Energy and Environment Systems for Coal-Dependent City by a Copula-Based Interval Cost–Benefit Stochastic Approach

Liu,

Tan,

Wei

et al. 2024

Sustainability

View full text Add to dashboard Cite

Extreme random events will interfere with the inversion analysis of energy and environment systems (EES) and make the planning schemes unreliable. A Copula-based interval cost–benefit stochastic programming (CICS) is proposed to deal with extreme random uncertainties. Taking Yulin city as an example, there are nine constraint-violation scenarios and six coal-reduction scenarios are designed. The results disclose that (i) both system cost and pollutant emission would decrease as the industrial energy supply constraint-violation level increases; (ii) when the primary and secondary energy output increases by 9% and 13%, respectively, and industrial coal supply decreases by 40%, the coal-dependent index of the system would be the lowest, and the corresponding system profitability could reach [29.3, 53.0] %; (iii) compared with the traditional chance-constrained programming, Copula-based stochastic programming can reflect more uncertain information and achieve a higher marginal net present value rate. Overall, the CICS-EES model offers a novel approach to gain insight into the tradeoff between system reliability and profitability.

show abstract

Section: Introductionmentioning

confidence: 99%

Analysis of Extreme Random Uncertainty in Energy and Environment Systems for Coal-Dependent City by a Copula-Based Interval Cost–Benefit Stochastic Approach

Liu,

Tan,

Wei

et al. 2024

Sustainability

View full text Add to dashboard Cite

show abstract

“…At the third stage (Interpretation), the recommendations for ensuring power system sustainability are developed. Such recommendations can be made using different methods of scenario modeling, namely, fuzzy synthetic evaluation [30,31], Monte Carlo simulation [32,33], multiobjective optimization [34][35][36], or other techniques. Multiobjective optimization is considered to be the most appropriate method to use when making longterm strategic decisions, whereas Monte Carlo simulation is focused on the uncertainties in the development of power systems.…”

Section: Introductionmentioning

confidence: 99%

Assessment of Power System Sustainability and Compromises between the Development Goals

Wang¹,

Gryshova

Balian

et al. 2022

Sustainability

View full text Add to dashboard Cite

Ensuring the sustainability of the European power system is one of the key priorities in the implementation of the EU’s ambitious plans to become climate-neutral by 2050. The uniqueness of the power systems of the EU member states necessitates their assessment and comparison. The article offers a composite indicator, namely, the power system sustainability index (PSS index), to assess the current level of the development of the power systems via three dimensions (social, economic, and environmental) and eight local indicators: the household electricity consumption per capita; the commercial electricity consumption per GDP; the external dependency of the power system; the energy efficiency of the generation; the capacity utilization factor; the share of organic fossil fuels; the share of renewable energy resources; and the greenhouse gas (GHG) emissions per unit of primary energy source. The “energy mix” is defined as the key impact factor, which has a contradictory effect on the local power system sustainability (LPSS) indicators, which can be represented as a set of regression models. The data of the regression analysis can be used for performing a multiobjective optimization by the local indicators, and they can determine the vectors of change required to ensure the sustainability of the power system. The research results prove that it is possible to minimize the GHG emissions per unit of primary energy source and maximize the energy efficiency of generation, while reducing the capacity utilization and increasing the external dependency of the power system.

show abstract

“…For instance, Viebahn et al [24,[48][49][50] proposed an integrated assessment methodology to capture the techno-economic and climate mitigation aspects of coal-CCS development pathways in Germany, China, India and South Africa. The "nexus" approach has been developed in recent years to investigate the inter-linkages between the energy technologies and their use of natural resources; for example, an energy-water nexus [51][52][53], energy-climate-water nexus [54,55], energy-food-water nexus [56,57] and energy-land-water nexus [58,59]. However, the nexus perspective has been very limited in its application in the context of coal-CCS [45].…”

Section: Introductionmentioning

confidence: 99%

An Integrated Comparative Assessment of Coal-Based Carbon Capture and Storage (CCS) Vis-à-Vis Renewable Energies in India’s Low Carbon Electricity Transition Scenarios

2021

View full text Add to dashboard Cite

Roadmaps for India’s energy future foresee that coal power will continue to play a considerable role until the middle of the 21st century. Among other options, carbon capture and storage (CCS) is being considered as a potential technology for decarbonising the power sector. Consequently, it is important to quantify the relative benefits and trade-offs of coal-CCS in comparison to its competing renewable power sources from multiple sustainability perspectives. In this paper, we assess coal-CCS pathways in India up to 2050 and compare coal-CCS with conventional coal, solar PV and wind power sources through an integrated assessment approach coupled with a nexus perspective (energy-cost-climate-water nexus). Our levelized costs assessment reveals that coal-CCS is expensive and significant cost reductions would be needed for CCS to compete in the Indian power market. In addition, although carbon pricing could make coal-CCS competitive in relation to conventional coal power plants, it cannot influence the lack of competitiveness of coal-CCS with respect to renewables. From a climate perspective, CCS can significantly reduce the life cycle GHG emissions of conventional coal power plants, but renewables are better positioned than coal-CCS if the goal is ambitious climate change mitigation. Our water footprint assessment reveals that coal-CCS consumes an enormous volume of water resources in comparison to conventional coal and, in particular, to renewables. To conclude, our findings highlight that coal-CCS not only suffers from typical new technology development related challenges—such as a lack of technical potential assessments and necessary support infrastructure, and high costs—but also from severe resource constraints (especially water) in an era of global warming and the competition from outperforming renewable power sources. Our study, therefore, adds a considerable level of techno-economic and environmental nexus specificity to the current debate about coal-based large-scale CCS and the low carbon energy transition in emerging and developing economies in the Global South.

show abstract

Planning an Energy–Water–Environment Nexus System in Coal-Dependent Regions under Uncertainties

Cited by 5 publications

References 44 publications

Analysis of Extreme Random Uncertainty in Energy and Environment Systems for Coal-Dependent City by a Copula-Based Interval Cost–Benefit Stochastic Approach

Analysis of Extreme Random Uncertainty in Energy and Environment Systems for Coal-Dependent City by a Copula-Based Interval Cost–Benefit Stochastic Approach

Assessment of Power System Sustainability and Compromises between the Development Goals

An Integrated Comparative Assessment of Coal-Based Carbon Capture and Storage (CCS) Vis-à-Vis Renewable Energies in India’s Low Carbon Electricity Transition Scenarios

Contact Info

Product

Resources

About