This manuscript presents the bicriteria optimization of a polygeneration system to be installed in a tertiary sector building, considering economic and environmental objective functions. Electricity, hot water, steam, and cooling demands were considered. The bicriteria problem considered the annual costs and the annual carbon footprint. Updated environmental information was obtained through the application of the Life Cycle Assessment methodology and implemented within a Mixed Integer Linear Programming (MILP) model, along with economic and legal data. Solar photovoltaic energy and biomass were available, as well as natural gas and diesel. The energy system could import and export electricity to the electric grid. Individual optimal solutio...
The aim of the paper is to identify the optimal energy production system and its optimal operation s...
In the paper a multi-objective optimization model for distributed energy supply systems optimization...
AbstractIn recent years, the governments of most nations have pledged to (i) limit carbon dioxide em...
Polygeneration energy systems using multiple energy sources (e.g., wind, biomass, solar) and deliver...
This paper develops a multiperiod multiobjective optimization procedure to determine the optimal con...
Polygeneration systems enable natural resources to be exploited efficiently, decreasing CO2 emission...
In the paper a multi-objective optimization model for distributed energy supply systems optimization...
In line with the decarbonization of the domestic sector to meet the 2050 climate neutrality targets,...
Design and performance of polygeneration energy systems are highly influenced by several variables, ...
The residential sector plays an important role to mitigate climate change due to its high energy con...
Polygeneration systems with thermal energy storage represent promising solutions to achieve energy s...
The paper presents the optimization of an energy supply system for an Italian industrial area. The s...
The building sector represents around one-third of the energy related to the EU CO2 eq emissions, wh...
Polygeneration, a multiple-input, multiple-output energy system that produces electricity and chemi-...
Besides satisfying the energy demands of buildings, distributed generation can contribute toward env...
The aim of the paper is to identify the optimal energy production system and its optimal operation s...
In the paper a multi-objective optimization model for distributed energy supply systems optimization...
AbstractIn recent years, the governments of most nations have pledged to (i) limit carbon dioxide em...
Polygeneration energy systems using multiple energy sources (e.g., wind, biomass, solar) and deliver...
This paper develops a multiperiod multiobjective optimization procedure to determine the optimal con...
Polygeneration systems enable natural resources to be exploited efficiently, decreasing CO2 emission...
In the paper a multi-objective optimization model for distributed energy supply systems optimization...
In line with the decarbonization of the domestic sector to meet the 2050 climate neutrality targets,...
Design and performance of polygeneration energy systems are highly influenced by several variables, ...
The residential sector plays an important role to mitigate climate change due to its high energy con...
Polygeneration systems with thermal energy storage represent promising solutions to achieve energy s...
The paper presents the optimization of an energy supply system for an Italian industrial area. The s...
The building sector represents around one-third of the energy related to the EU CO2 eq emissions, wh...
Polygeneration, a multiple-input, multiple-output energy system that produces electricity and chemi-...
Besides satisfying the energy demands of buildings, distributed generation can contribute toward env...
The aim of the paper is to identify the optimal energy production system and its optimal operation s...
In the paper a multi-objective optimization model for distributed energy supply systems optimization...
AbstractIn recent years, the governments of most nations have pledged to (i) limit carbon dioxide em...