Procedure for controlling the temperature and power of a thermal solar power plant

Abstract

The current method intends to maximize the solar heated medium to the optimal level to increase efficiency and obtain more electrical energy from a thermal solar power plant. The construction of solar power plants is well known and may consist of several types of structures. However, the principles of optimization in each design are the same. In both types, the idea is to maximize the effect P sun =( P out – P in ) Cp V ˙. We want to maximize the power P sunto achieve maximum efficiency electric current. A simulation study has been made to get a more accurate picture of the method and simulation of the sun's intensity and effect at different times of the day. The simulation study has also been done to show that the idea behind the method is consistent with previously made calculations and that an increase in electricity production can be demonstrated and that the method is economically viable. As a control method, many control strategies have been proposed to optimize the solar power plant. It was difficult to try to estimate the solar intensity, but sufficient data could still be obtained. The method is based on a proprietary optimization method that suits solar reflexing. Forsman T. (2021)

Procedure for controlling the temperature and power of a thermal solar power plant

Abstract

The current method intends to maximize the solar heated medium to the optimal level to increase efficiency and obtain more electrical energy from a thermal solar power plant. The construction of solar power plants is well known and may consist of several types of structures. However, the principles of optimization in each design are the same. In both types, the idea is to maximize the effect P sun =( P out – P in ) Cp V ˙. We want to maximize the power P sunto achieve maximum efficiency electric current. A simulation study has been made to get a more accurate picture of the method and simulation of the sun's intensity and effect at different times of the day. The simulation study has also been done to show that the idea behind the method is consistent with previously made calculations and that an increase in electricity production can be demonstrated and that the method is economically viable. As a control method, many control strategies have been proposed to optimize the solar power plant. It was difficult to try to estimate the solar intensity, but sufficient data could still be obtained. The method is based on a proprietary optimization method that suits solar reflexing. Forsman T. (2021)

Procedure for controlling the temperature and power of a thermal solar power plant

Abstract

The current method intends to maximize the solar heated medium to the optimal level to increase efficiency and obtain more electrical energy from a thermal solar power plant. The construction of solar power plants is well known and may consist of several types of structures. However, the principles of optimization in each design are the same. In both types, the idea is to maximize the effect P sun =( P out – P in ) Cp V ˙. We want to maximize the power P sunto achieve maximum efficiency electric current. A simulation study has been made to get a more accurate picture of the method and simulation of the sun's intensity and effect at different times of the day. The simulation study has also been done to show that the idea behind the method is consistent with previously made calculations and that an increase in electricity production can be demonstrated and that the method is economically viable. As a control method, many control strategies have been proposed to optimize the solar power plant. It was difficult to try to estimate the solar intensity, but sufficient data could still be obtained. The method is based on a proprietary optimization method that suits solar reflexing. Forsman T. (2021)

Procedure for controlling the temperature and power of a thermal solar power plant

Abstract

The current method intends to maximize the solar heated medium to the optimal level to increase efficiency and obtain more electrical energy from a thermal solar power plant. The construction of solar power plants is well known and may consist of several types of structures. However, the principles of optimization in each design are the same. In both types, the idea is to maximize the effect P sun =( P out – P in ) Cp V ˙. We want to maximize the power P sunto achieve maximum efficiency electric current. A simulation study has been made to get a more accurate picture of the method and simulation of the sun's intensity and effect at different times of the day. The simulation study has also been done to show that the idea behind the method is consistent with previously made calculations and that an increase in electricity production can be demonstrated and that the method is economically viable. As a control method, many control strategies have been proposed to optimize the solar power plant. It was difficult to try to estimate the solar intensity, but sufficient data could still be obtained. The method is based on a proprietary optimization method that suits solar reflexing. Forsman T. (2021)

Procedure for controlling the temperature and power of a thermal solar power plant

Abstract

The current method intends to maximize the solar heated medium to the optimal level to increase efficiency and obtain more electrical energy from a thermal solar power plant. The construction of solar power plants is well known and may consist of several types of structures. However, the principles of optimization in each design are the same. In both types, the idea is to maximize the effect P sun =( P out – P in ) Cp V ˙. We want to maximize the power P sunto achieve maximum efficiency electric current. A simulation study has been made to get a more accurate picture of the method and simulation of the sun's intensity and effect at different times of the day. The simulation study has also been done to show that the idea behind the method is consistent with previously made calculations and that an increase in electricity production can be demonstrated and that the method is economically viable. As a control method, many control strategies have been proposed to optimize the solar power plant. It was difficult to try to estimate the solar intensity, but sufficient data could still be obtained. The method is based on a proprietary optimization method that suits solar reflexing. Forsman T. (2021)

Procedure for controlling the temperature and power of a thermal solar power plant

Abstract

The current method intends to maximize the solar heated medium to the optimal level to increase efficiency and obtain more electrical energy from a thermal solar power plant. The construction of solar power plants is well known and may consist of several types of structures. However, the principles of optimization in each design are the same. In both types, the idea is to maximize the effect P sun =( P out – P in ) Cp V ˙. We want to maximize the power P sunto achieve maximum efficiency electric current. A simulation study has been made to get a more accurate picture of the method and simulation of the sun's intensity and effect at different times of the day. The simulation study has also been done to show that the idea behind the method is consistent with previously made calculations and that an increase in electricity production can be demonstrated and that the method is economically viable. As a control method, many control strategies have been proposed to optimize the solar power plant. It was difficult to try to estimate the solar intensity, but sufficient data could still be obtained. The method is based on a proprietary optimization method that suits solar reflexing. Forsman T. (2021)