Abstract
Energy hubs (EHs), due to their multiple nature in the production, consumption, and storage of energy, as well as the ability to participate in different energy markets, have made their optimal and profitable scheduling important for operators. Considering the literature review, one of the main motivations of this paper is the use of biogas as a pivotal fuel and through production using biomass in the structure of EHs. Therefore, this paper proposes a linearized optimization framework for optimal scheduling of a biogas-based EH for participation in day-ahead (DA) electricity and thermal energy markets. The proposed EH directly converts local biomass into biogas, thereby providing the fuel to generate electricity and thermal. This EH comprises digester, biogas storage, electric heat pump (EHP), biogas burner CHP and boiler, solar farm, electrical storage, and internal electrical and thermal loads. In this framework, the uncertainties related to solar radiation and the DA price are modeled to generate random scenarios using the Monte-Carlo method. The proposed EH is simulated for numerical studies based on data from Finland’s two selected spring and autumn days. The results show the optimal performance of the EH because it can participate in the electricity and thermal markets by using the biogas produced inside it and providing complete internal loads, and earns a decent income. In the autumn, operating the EH is more economical than in the spring. Moreover, comparative results have shown that eliminating the biogas unit and using natural gas significantly increases the expected costs of EH.
Highlights
Today, energy as the main element has become so important that it has made things like economic growth and social welfare dependent on itself
According to the importance and growth of biogas fuel application as a clean and valuable energy carrier as well as the gaps shown in Table 1, this paper proposes a stochastic optimization framework for optimal scheduling of a biogasbased Energy hubs (EHs) for DA power and thermal markets
The output data consisted of the result of optimal decision-making for the use of elements and EH exchanges
Summary
Thermal power sold to the energy market (MW). Total thermal power input to digester (kW). PEthHP−Dig Thermal generated by EHP of digester unit (kW). PEe HP−Dig Electricity consumed by EHP of digester unit (kW). Electricity generated by CHP biogas burner (MW). Thermal generated by CHP biogas burner (MW). Binary variable to on/off unit of CHP. Binary variable for the commitment of CHP unit. The thermal generated by the boiler biogas burner (MW). Binary variable for electric storage charging status. Binary variable for electric storage discharging status. Electric power generated by the solar farm. T , t Set and index of hours in the time horizon
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