This paper presents a framework for stochastic analysis, simulation and optimisation of electric power grids combined with heat district networks. In this framework, distributed energy sources can be integrated within the grids and their performance is modelled. The effect of uncertain weather-operational conditions on the system cost and reliability is considered. A Monte Carlo Optimal Power Flow simulator is employed and statistical indicators of the system cost and reliability are obtained. Reliability and cost expectations are used to compare 4 different investments on heat pumps and electric power generators to be installed on a real-world grid. Generators' sizes and positions are analysed to reveal the sensitivity of the cost and reli...
International audienceWe present a simulation and multi-objective optimization framework for the int...
International audienceSecurity and reliability are major concerns for future power systems with dist...
Combined heating, cooling and power (CHCP) systems, so-called trigeneration, are widely accepted as ...
This paper presents a framework for stochastic analysis, simulation and optimisation of electric pow...
Heat pumps represent a link between different energy vectors and their application in thermal and el...
Traditionally, electric power systems are subject to uncertainties related to equipment availability...
The penetration of intermittent renewable energy sources (IRESs) into power grids has increased in t...
A power generation system comprising thermal and pumped-storage hydro plants is considered. Two kind...
Model-based minimization of short term operational costs for energy distribution systems is examined...
Smart Thermal Grids (STGs) represent a new concept in the energy sector that involves the use of the...
This dissertation is focused on the development of mathematical models to solve electricity generati...
This paper presents a stochastic cost model and a solution technique for optimal scheduling of the g...
Because of economic and environmental issues' importance in the energy field, moving toward smart en...
Model-based minimization of short term operational costs for energy distribution systems is exami...
Abstract This paper proposes a robust investment and operation model to attend the power and heat ne...
International audienceWe present a simulation and multi-objective optimization framework for the int...
International audienceSecurity and reliability are major concerns for future power systems with dist...
Combined heating, cooling and power (CHCP) systems, so-called trigeneration, are widely accepted as ...
This paper presents a framework for stochastic analysis, simulation and optimisation of electric pow...
Heat pumps represent a link between different energy vectors and their application in thermal and el...
Traditionally, electric power systems are subject to uncertainties related to equipment availability...
The penetration of intermittent renewable energy sources (IRESs) into power grids has increased in t...
A power generation system comprising thermal and pumped-storage hydro plants is considered. Two kind...
Model-based minimization of short term operational costs for energy distribution systems is examined...
Smart Thermal Grids (STGs) represent a new concept in the energy sector that involves the use of the...
This dissertation is focused on the development of mathematical models to solve electricity generati...
This paper presents a stochastic cost model and a solution technique for optimal scheduling of the g...
Because of economic and environmental issues' importance in the energy field, moving toward smart en...
Model-based minimization of short term operational costs for energy distribution systems is exami...
Abstract This paper proposes a robust investment and operation model to attend the power and heat ne...
International audienceWe present a simulation and multi-objective optimization framework for the int...
International audienceSecurity and reliability are major concerns for future power systems with dist...
Combined heating, cooling and power (CHCP) systems, so-called trigeneration, are widely accepted as ...