How to develop control strategies for automated solar shading systems?

Developing control strategies for automated solar shading systems requires making decisions regarding a large number of design parameters involving the control logic, control sensors and the design of the shading device (Kuhn 2017 ). Additionally, the number of possible sequences of shading system actuations or states defines a vast control space.

How to optimize the performance of solar shades?

The control strategies used to optimize the performance of solar shades were divided into three groups. Hard control techniques use dynamic systems such as energy and daylight simulation models in order to evaluate the thermal behavior of the buildings. Soft control methods utilize mathematical models to predict system behavior analytically.

Can shading devices be used with integrated photovoltaics?

“However, the application of shading devices with integrated photovoltaics has significant challenges due to the complexity of the system and the adaptability of these systems to different contextual conditions” (Lee et al., 2009).

Are photovoltaic shades a good investment?

Photovoltaic shades in buildings offer energy efficiency and electricity generation, but an international research group says their commercial viability will depend on the control strategies used to optimize performance.

What are the different types of solar shading devices?

Two different configurations were considered: an internal shading device with an automated control based on direct solar radiation levels; a fixed external shading with no indoor shading device.

How can a simulation model predict the performance of solar shading control?

A simulation model is then developed (1.5) to predict the performance of each of the control modes and the corresponding sensor readings for each sensor alternative. Figure 1. Overview of the computational method for developing high-performance solar shading control and sensor strategies.