Distributionally Robust Demand Response for Heterogeneous Buildings with Rooftop Renewables under Cold Climates

Buildings, Journal Year: 2024, Volume and Issue: 14(6), P. 1530 - 1530

Published: May 25, 2024

A considerable penetration of rooftop PV generation and increasing demand for heating loads will enlarge the peak-to-valley difference, imposing a great challenge to reliable operation distribution systems under cold climates. The objective this paper is establish distributionally robust response (DR) model building energy suppressing load ratios by exploiting cooperative complementarity flexible transformation characteris-tics various household appliances. thermodynamic effect buildings modeled harvesting intermittent renewable sources (RESs) on roof in form thermal storages reduce RES curtailments eliminate comfort violations weather. Furthermore, Wasserstein metric adopted develop ambiguity set uncertainty probability distributions (PDs) RESs, thus, only historical data output needed rather than prior knowledge about actual PDs. Finally, computationally tractable mixed-integer linear programming reformulation derived original optimization (DRO) model. proposed DRO-based DR strategy was performed multiple over 24 h scheduling horizon, comparative studies have validated effectiveness reducing peak/valley ratio decreasing costs.

Language: Английский

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Maghreb's Renewable Power Future for Climate Mitigation: Insights from the Times-Mage Model

Published: Jan. 1, 2024

Language: Английский

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Modelling of Grid Management Strategy for Handling Intermittent Renewable Energy Generation in Island Regions

Advances in chemical and materials engineering book series, Journal Year: 2024, Volume and Issue: unknown, P. 194 - 222

Published: June 21, 2024

The integration of solar and wind power into standard grid systems has increased the usage renewable energy; however, operational challenges presented by these sources' fundamental intermittency remain. This research analyses management approaches designed to decrease concerns related energy. Resource utilization balancing are made feasible precise short- long-term forecasting models for irradiance patterns, which allow generators plan changes. planned location, Sagar Island, requires 9.5 MW electricity. suggested mix solar, wind, generate 16.5MW. PV module generates 8,339 kWh, turbine creates 7,532 purchased 674 sold 12,454. CO2 emission system is 33.7 kg/year. economics metrics ROI 4.5%, IRR 6.6%, simple payback 11.34 year.

Language: Английский

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Europe's Future Industrial Landscape: A Green Industrial Location Attractiveness Index

Research Square (Research Square), Journal Year: 2024, Volume and Issue: unknown

Published: Oct. 3, 2024

Increased gas prices, constraints in nuclear power generation, and diminished hydroelectric production have introduced challenges for Europe, coinciding with an emerging green industrialization. Utilizing data from the European Commission Eurostat, we introduce Green Industrial Location Attractiveness Index, a tool designed to help assessing locations of future industrial developments. Our findings highlight Sweden, Finland, France as probable destinations projects. A revealing geographical divide where northern countries rank higher compared their southern counterparts. This analysis enhances our understanding Europe's changing landscape amidst volatile electricity offering insights policymakers investors. An overarching conclusion paper is that well-crafted energy policies mitigate economic impacts price fluctuations on energy-intensive industries, ensuring remain competitive. JEL classification: Q41, L94, Q42, Q54.

Language: Английский

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