Samir Semahi scite author profile

Samir Semahi

2Publications

33Citation Statements Received

108Citation Statements Given

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106

Affiliations

University of Liège, University of Blida, University of Biskra

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Comparative bioclimatic approach for comfort and passive heating and cooling strategies in Algeria

Semahi

Zemmouri

Singh

et al. 2019

Building and Environment

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A B S T R A C TThe energy consumption and thermal comfort in buildings are heavily affected by weather conditions. Therefore, the aim of this paper is to analyze the bioclimatic potential of Algerian climate zones. This analysis was made based on eight representative locations using recent weather datasets (2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014)(2015)(2016)(2017). The thermal comfort and passive design potential analysis were based on a psychometric chart applying the adaptive comfort model ASHRAE 55-2017. In addition, an evaluation of the bioclimatic potential was conducted using simulations of a monitored and calibrated residential building model in Algeria using EnergyPlus. The building model has been tested in eight previously selected locations. The heating and cooling energy load results were calculated for each climatic zone and compared. The results allow architects and urban planners to better understand the climate and provide practical design guidance.1 Evaluate the thermal comfort and bioclimatic design potential of eight selected cities, which represent the six official climate zones of Algeria, based on a psychometric chart and the adaptive comfort model ASHRAE 55-2017. 2 Validate the bioclimatic potential analysis by simulating the heating https://doi.

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Development of Spatial Distribution Maps for Energy Demand and Thermal Comfort Estimation in Algeria

et al. 2020

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Climatic spatial maps are essential for understanding the thermal conditions of cities and estimate their cooling and heating energy needs. Climate maps allow building designers and city planners to get adequately informed without accessing, analyzing or interpreting dense textual information. In this study, a representative residential benchmark model was simulated in seventy-four cities of Algeria. The simulation results were interpolated using geographic information systems to generate six high-resolution maps that spatially estimate and visualize the discomfort hours and cooling/heating energy needs. The unique methodology relies on a reliable weather dataset (2004–2018) and combines the power of building performance simulation and geographic information systems. The results of these analyses provide easy to understand and web-based atlas that can be used to explore regional and local climate and quantify the discomfort hours, the heating/cooling energy needs and energy use intensity. The spatial maps are not a static product, but rather data-rich content, which can be expanded to include the most important cities of Algeria. The capabilities of the tool allow architects and urban planners to understand the climate better and propose practical design guidance.

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Samir Semahi

Comparative bioclimatic approach for comfort and passive heating and cooling strategies in Algeria

Development of Spatial Distribution Maps for Energy Demand and Thermal Comfort Estimation in Algeria

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