This paper presents the development of a quasi-linear optimization model for a cogeneration system subject to constant heat and power demands or loads. The linear model is next modified to a non-linear one to account for economies of scale. The models define the necessary and sufficient conditions for system size optimality. Thus, the underlying methodology constitutes the foundation for a subsequent series of more sophisticated cogeneration design models. Several examples are presented to illustrate the models
Selecting the best way to run large in-plant cogeneration systems to meet site electricity and ste...
The aim of the paper is to identify the optimal energy production system and its optimal operation s...
The presented work compares two optimization models for combined heat and power (CHP) energy systems...
Cogeneration (or Combined Heat and Power, CHP) is the simultaneous production of electrical and ther...
International audienceA cogeneration system provides electrical (or mechanical) and useful thermal e...
Cogeneration system design deals with several parameters in the synthesis phase, where not only a th...
A numerical optimisation method, previously applied to a large cogeneration plant has been adapted f...
The increasing deployment of renewable energy sources into the power system will lead to larger fluc...
Cogeneration system design deals with several parameters in the synthesis phase, where not only a th...
Cogeneration is a high-efficiency technology that has been adapted to small and micro scale applicat...
International Conference on Efficiency, Cost Optimisation, Simulation and Environmental Aspects of E...
This paper presents a generalized formulation to determine the optimal. operating strategy of indust...
Combined electrical and thermal energy systems (i.e., cogeneration systems) will play an integral ro...
Nowadays cogeneration is recognized as one of the most effective techniques to meet the increasingly...
AbstractAn analytical method is developed to estimate the optimum size of cogeneration units in resi...
Selecting the best way to run large in-plant cogeneration systems to meet site electricity and ste...
The aim of the paper is to identify the optimal energy production system and its optimal operation s...
The presented work compares two optimization models for combined heat and power (CHP) energy systems...
Cogeneration (or Combined Heat and Power, CHP) is the simultaneous production of electrical and ther...
International audienceA cogeneration system provides electrical (or mechanical) and useful thermal e...
Cogeneration system design deals with several parameters in the synthesis phase, where not only a th...
A numerical optimisation method, previously applied to a large cogeneration plant has been adapted f...
The increasing deployment of renewable energy sources into the power system will lead to larger fluc...
Cogeneration system design deals with several parameters in the synthesis phase, where not only a th...
Cogeneration is a high-efficiency technology that has been adapted to small and micro scale applicat...
International Conference on Efficiency, Cost Optimisation, Simulation and Environmental Aspects of E...
This paper presents a generalized formulation to determine the optimal. operating strategy of indust...
Combined electrical and thermal energy systems (i.e., cogeneration systems) will play an integral ro...
Nowadays cogeneration is recognized as one of the most effective techniques to meet the increasingly...
AbstractAn analytical method is developed to estimate the optimum size of cogeneration units in resi...
Selecting the best way to run large in-plant cogeneration systems to meet site electricity and ste...
The aim of the paper is to identify the optimal energy production system and its optimal operation s...
The presented work compares two optimization models for combined heat and power (CHP) energy systems...