Conventional approaches towards energy-system modelling and operation are based upon
the system design and performance optimization. In system-design optimization, the thermal …

This paper presents a multi-objective optimization approach in order to find the optimal
capacities of a CCHP microgrid, to meet the power, heating and cooling loads of a large …

In this study a probabilistic approach for optimal sizing of cogeneration systems under long-
term uncertainty in energy demand is proposed. A dynamic simulation framework for …

This paper presents a novel modeling approach to optimize the electrical and thermal
energy management of a multiple energy carrier micro-grid with the aim of minimizing the …

One of the best ways to optimally consuming fossil fuel thermal energy is to utilize combined
cooling, heating, and power (CCHP) systems. In such systems, by recycling heat wasted …

For green hydrogen energy systems driven by renewables, despite the complexities in
design and operations, uncertainties related to availability of infrastructures or seasonality of …

The operating strategy can affect the optimal solution and performance of a polygeneration
energy system. In this study, the effect of operating strategies: following thermal load; …

Inherent uncertainties of biomass-driven systems including seasonality, supply chain
problems, and energy conversion limitations put reliability and availability of such systems …

The off-design performance of a combined cooling heating and power (CCHP) system is of
great importance and is affected by the system configuration and operating strategy. This …

Combined heating, cooling and power (CHCP) systems, so-called trigeneration, are widely
accepted as more energy-efficient and environment-friendly alternatives to traditional …