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Energy Performance and Indoor Climate Analysis in Buildings

Energy Performance and Indoor Climate Analysis in Buildings

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HVAC systems, load shifting, indoor climate, and energy and ventilation performance analyses are the key topics when improving energy performance in new and renovated buildings. This development has been boosted by the recently established nearly zero energy building requirements that will soon be in use in all EU Member States, as well as similar long-term zero energy building targets in Japan, the US, and other countries. The research covered in this Special Issue provides evidence of how new technical solutions have worked, in practice, in new or renovated buildings, and also discusses problems and how solutions should be further developed. Another focus is on the more detailed calculation methods needed for the correct design and sizing of dedicated systems, and for accurate quantification of energy savings. Occupant behavior and building operation is also examined, in order to avoid common performance gaps between calculated and measured performance. These topics demonstrate the challenge of high performance buildings as, in the end, comfortable buildings with good indoor climate which are easy and cheap to operate and maintain are expected by end customers. Ventilation performance, heating and cooling, sizing, energy predictions and optimization, load shifting, and field studies are some of the key topics in this Special Issue, contributing to the future of high performance buildings with reliable operation.

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Keywords

  • air exchange effectiveness
  • air jet
  • alternate operation
  • basketball hall
  • Building
  • building energy modelling
  • building energy simulation
  • building pressure condition
  • CFD
  • chiller performance
  • chiller plants
  • condenser evaporative precooling
  • control strategy
  • cooling
  • COP
  • corner impinging jet
  • corner mixing ventilation
  • data-driven analysis
  • daylight
  • daylight factor
  • daylight simulations
  • daylight survey
  • decentralized ventilation unit
  • demand response
  • demand side management
  • DHW energy use
  • DHW heating
  • displacement ventilation
  • downdraught
  • draught rate
  • draught rate,
  • electricity use
  • energy
  • Energy Efficiency
  • energy flexibility
  • energy performance
  • energy performance modeling
  • energy performance of buildings directive
  • energy signature
  • existing buildings
  • field measurement
  • gray box
  • greenhouse
  • ground source heat pump
  • heating mode
  • heating power
  • HVAC systems
  • hybrid displacement device
  • in situ measurements
  • indoor air quality
  • indoor climate
  • Indoor Environmental Quality (IEQ)
  • Indoor Environmental Quality (IEQ), Pro-GET-onE H2020
  • indoor temperature after renovation
  • indoor temperature uniformity
  • ISO 52016-1
  • ISO 7730
  • JAYA algorithm
  • load shifting
  • local air change effectiveness
  • meteorological reanalysis data
  • mixing ventilation
  • monitoring measurements
  • Monte Carlo method
  • multiple sensor nodes
  • occupant behavior
  • optimal energy management
  • outdoor air
  • personalized ventilation
  • Pro-GET-onE H2020
  • qualitative control
  • retirement home
  • rooftop air conditioners
  • satellite-based solar radiation data
  • single room ventilation unit
  • sizing
  • skin temperature
  • smart buildings
  • Smart grid
  • smart readiness indicator
  • space heating
  • stack effect
  • standard use
  • stratification
  • student dormitories
  • thermal analysis
  • thermal comfort
  • tracer gas
  • TRNSYS
  • user behavior
  • user input data
  • Ventilation
  • ventilation renovation
  • wind pressure

Links

DOI: 10.3390/books978-3-03921-380-1

Editions

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