Journal ArticleDOI
Passive building energy savings: A review of building envelope components
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TLDR
In this article, the authors make an exhaustive technical review of the building envelope components and respective improvements from an energy efficiency perspective, including different types of energy efficient walls such as Trombe walls, ventilated walls, and glazed walls.Abstract:
A significant portion of the total primary energy is consumed by today's buildings in developed countries In many of these buildings, the energy consumption can be significantly reduced by adopting energy efficiency strategies Due to environmental concerns and the high cost of energy in recent years there has been a renewed interest in building energy efficiency This article strives to make an exhaustive technical review of the building envelope components and respective improvements from an energy efficiency perspective Different types of energy efficient walls such as Trombe walls, ventilated walls, and glazed walls are discussed Performance of different fenestration technologies including aerogel, vacuum glazing and frames are presented Advances in energy efficient roofs including the contemporary green roofs, photovoltaic roofs, radiant-transmittive barrier and evaporative roof cooling systems are discussed Various types of thermal insulation materials are enumerated along with selection criteria of these materials The effects of thermal mass and phase change material on building cooling/heating loads and peak loads are discussed Application of thermal mass as an energy saving method is more effective in places where the outside ambient air temperature differences between the days and nights are high Air tightness and infiltration of building envelopes are discussed as they play a crucial role in the energy consumption of a building Energy efficiency approaches sometimes might not require additional capital investment For example, a holistic energy efficient building design approach can reduce the size of mechanical systems compensating the additional cost of energy efficiency featuresread more
Citations
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A numerical and experimental study of a cellular passive solar façade system for building thermal control
TL;DR: In this paper, a building envelop system is presented that incorporates small air cells backed by phase change material to achieve quasi-constant core temperatures within a building enclosure system, which results in a cladding system that can be used to thermally condition buildings.
Journal ArticleDOI
The impact of evaporation from porous tile on roof thermal performance: A case study of Guangzhou's climatic conditions
Lei Zhang,Lei Zhang,Rongpeng Zhang,Yu Zhang,Yu Zhang,Tianzhen Hong,Qinglin Meng,Yanshan Feng +7 more
TL;DR: In this article, a multivariate nonlinear model was developed for the prediction of the evaporation rate from porous tile, and a computer program was then developed based on the one-dimensional roof unsteady heat transfer theory.
Journal ArticleDOI
Thermal Modeling of a Rooftop Photovoltaic/Thermal System With Earth Air Heat Exchanger for Combined Power and Space Heating
Journal ArticleDOI
On the potential of building adaptation measures to counterbalance the impact of climatic change in the tropics
Shamila Haddad,Adrian Barker,Junjing Yang,Devi Ilamathy Mohan Kumar,Samira Garshasbi,Riccardo Paolini,Mattheos Santamouris +6 more
TL;DR: In this article, the authors used regional climate modelling for the Australian area and using a building energy simulation platform, they computed that by 2060 the indoor air temperature in a typical residential building may exceed 30°C for over 4000h under free-floating condition, with a peak daytime and night-time temperatures of 39°C and 36.5°C, respectively.
References
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Journal ArticleDOI
Contrasting the capabilities of building energy performance simulation programs
TL;DR: In this paper, a comparison of the features and capabilities of twenty major building energy simulation programs is presented, based on information provided by the program developers in the following categories: general modeling features; zone loads; building envelope and daylighting and solar; infiltration, ventilation and multizone airflow; renewable energy systems; electrical systems and equipment; HVAC systems; HVC equipment; environmental emissions; economic evaluation; climate data availability, results reporting; validation; and user interface, links to other programs, and availability.
Journal ArticleDOI
PCM thermal storage in buildings: A state of art
V.V. Tyagi,Dharam Buddhi +1 more
TL;DR: A comprehensive review of various possible methods for heating and cooling in buildings is discussed in this article, where the thermal performance of various types of systems like PCM trombe wall, PCM wallboards, and PCM shutters are presented.
Journal ArticleDOI
Performance characteristics and practical applications of common building thermal insulation materials
TL;DR: In this paper, the authors present an overview of the basic principles of thermal insulation and to survey the most commonly used building insulation materials, their performance characteristics and proper applications, and the magnitude of energy savings as a result of using thermal insulation vary according to the building type, the climatic conditions at which the building is located as well as the type of the insulating material used.
Journal ArticleDOI
Green roofs; building energy savings and the potential for retrofit
TL;DR: In this paper, the authors reviewed the current literature and highlighted the situations in which the greatest building energy savings can be made and found that older buildings with poor existing insulation are deemed to benefit most from a green roof as current building regulations require such high levels of insulation that green roofs are seen to hardly affect annual building energy consumption.
Journal ArticleDOI
State of the art in thermal insulation materials and aims for future developments
TL;DR: The European market of insulation materials is characterised by the domination of two groups of products inorganic fibrous materials and organic foamy materials as discussed by the authors, which all feature similar performance in terms of insulating capabilities, but otherwise present significant differences.