Laplace and State-Space Methods for Calculating the Heat Losses in Case of Heavyweight Building Elements and Short Sampling Times

Abstract: Reducing heat losses through the building envelope is one of the most important aspects to be met if the targets set by the European Union are to be achieved. In order to obtain a more realistic energy demand, dynamic heat transfer simulations are used to calculate the energy consumption of buildings, since steady-state calculations do not take into account the thermal mass in buildings. These dynamic simulations employ methods based on analytical models since numerical models are unsuitable for longer time pe… Show more

“…-Improving the building envelope, which involves improving the fixed and mobile building components to reduce energy losses [2]; it is one of the most popular methods used to reduce the energy needed to heat and cool buildings; -Integrating and using renewable energy technologies, such as solar thermal and photovoltaic panels, geothermal heat, wind energy, etc., that have contributed to reducing fossil energy consumption fuels and thereby reducing global carbon emissions [3]; -Improving equipment management by setting up systems and solutions for managing needs based on the flexibility of demand, smart buildings [4], intelligent sensors [5], and optimized control algorithms [6,7].…”

Optimal Neural Network PID Approach for Building Thermal Management

“…-Improving the building envelope, which involves improving the fixed and mobile building components to reduce energy losses [2]; it is one of the most popular methods used to reduce the energy needed to heat and cool buildings; -Integrating and using renewable energy technologies, such as solar thermal and photovoltaic panels, geothermal heat, wind energy, etc., that have contributed to reducing fossil energy consumption fuels and thereby reducing global carbon emissions [3]; -Improving equipment management by setting up systems and solutions for managing needs based on the flexibility of demand, smart buildings [4], intelligent sensors [5], and optimized control algorithms [6,7].…”

Optimal Neural Network PID Approach for Building Thermal Management

Heat transfer through a three-layer wall considering the contribution of phase change: A novel approach to the modelling of the process