Deployment and control of adaptive building facades for energy generation, thermal insulation, ventilation and daylighting: A review

• Published in: Applied thermal engineering Vol. 185; p. 116331
• Main Authors: Alkhatib, H., Lemarchand, P., Norton, B., O'Sullivan, D.T.J.
• Format: Journal Article
• Language: English
• Published: Oxford Elsevier Ltd 25.02.2021; Elsevier BV
• Subjects: Adaptive algorithms; Adaptive buildings; Adaptive control; Adaptive facades; Adaptive façade control; Buildings; Control algorithms; Electricity; Energy consumption; Energy storage; Energy-harnessing; Facades; Heat generation; Heat transfer; Insulation; Mass transfer; nZEB; Solar energy; Thermal insulation; Thermophysical properties; Ventilation; Weather; Adaptive façade control; nZEB; Adaptive buildings; Adaptive facades; Energy-harnessing
• ISSN: 1359-4311; 1873-5606
• DOI: 10.1016/j.applthermaleng.2020.116331

•Adaptive facades should both embody minimal energy and incur low operating energy.•Adaptive façades designs need to ease building integration for cost-effectiveness.•Effective control integrates Human-centred operation & thermophysical response times.•Effective control integrates Human-centred operation & thermophysical response times.Model predictive control and hybrid control techniques dominate research to-date. A major objective in the design and operation of buildings is to maintain occupant comfort without incurring significant energy use. Particularly in narrower-plan buildings, the thermophysical properties and behaviour of their façades are often an important determinant of internal conditions. Building facades have been, and are being, developed to adapt their heat and mass transfer characteristics to changes in weather conditions, number of occupants and occupant’s requirements and preferences. Both the wall and window elements of a facade can be engineered to (i) harness solar energy for photovoltaic electricity generation, heating, inducing ventilation and daylighting (ii) provide varying levels of thermal insulation and (iii) store energy. As an adaptive façade may need to provide each attribute to differing extents at particular times, achieving their optimal performance requires effective control. This paper reviews key aspects of current and emerging adaptive façade technologies. These include (i) mechanisms and technologies used to regulate heat and mass transfer flows, daylight, electricity and heat generation (ii) effectiveness and responsiveness of adaptive façades, (iii) appropriate control algorithms for adaptive facades and (iv) sensor information required for façade adaptations to maintain desired occupants’ comfort levels while minimising the energy use.