A progressive step-by-step approach is suggested to optimize energy conversion plants and systems when many conflicting aspects must be considered and a mathematical description of the problem is very hard and/or can be performed by means of complex and time-consuming calculations. The procedure can easily be adapted to meet different objectives pursued by analysts, designers, operators, policy makers. Some examples of application of this approach to different systems, according to different objectives, are presented in the paper
The decomposition of an energy system into subsystems of reduced complexity, to be optimized separat...
Determining environmentally- and economically-optimal energy systems designs and operations is compl...
The aim of the paper is to present an energy system optimization method, based on the Fuel Impact Fo...
A progressive step-by-step approach is suggested to optimize energy conversion plants and systems wh...
This chapter starts from a discussion about the concept of optimisation in the field of energy syste...
From industrial revolution to the present day, fossil fuels are the main sources for ensuring energy...
A procedure is suggested to help designers and operators find optimized configurations and correct o...
The purpose of this paper is to describe the numerical modelling processes and optimization strategi...
This paper proposes a new methodology to provide a flexible optimum design tool for the multi-object...
A methodology was developed to improve energy usage in the process industries by optimizing plant op...
Like many engineering systems the design of energy conversion systems has not explicitly incorporate...
This book presents a collection of energy production and distribution problems identified by the mem...
This paper presents an optimal management control strategy for power systems in industrial plants. A...
In the debate on fossil fuels versus renewables/alternative sources, the search for more efficiency ...
Energy is an area of human activities that contains production, trading, transmission, distribution,...
The decomposition of an energy system into subsystems of reduced complexity, to be optimized separat...
Determining environmentally- and economically-optimal energy systems designs and operations is compl...
The aim of the paper is to present an energy system optimization method, based on the Fuel Impact Fo...
A progressive step-by-step approach is suggested to optimize energy conversion plants and systems wh...
This chapter starts from a discussion about the concept of optimisation in the field of energy syste...
From industrial revolution to the present day, fossil fuels are the main sources for ensuring energy...
A procedure is suggested to help designers and operators find optimized configurations and correct o...
The purpose of this paper is to describe the numerical modelling processes and optimization strategi...
This paper proposes a new methodology to provide a flexible optimum design tool for the multi-object...
A methodology was developed to improve energy usage in the process industries by optimizing plant op...
Like many engineering systems the design of energy conversion systems has not explicitly incorporate...
This book presents a collection of energy production and distribution problems identified by the mem...
This paper presents an optimal management control strategy for power systems in industrial plants. A...
In the debate on fossil fuels versus renewables/alternative sources, the search for more efficiency ...
Energy is an area of human activities that contains production, trading, transmission, distribution,...
The decomposition of an energy system into subsystems of reduced complexity, to be optimized separat...
Determining environmentally- and economically-optimal energy systems designs and operations is compl...
The aim of the paper is to present an energy system optimization method, based on the Fuel Impact Fo...