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Simulation Assumptions
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The outdoor air is still
Urbanization is causing lower wind velocities
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The building's passive orientation causes thermal gradient.
The passive orientation is all about it.
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The bitter cold feeling experiences grows linearly with lowering of the air temperature
Quantitative Research is needed
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The bitter cold feeling experiences exponentially grows with increasing wind speed
Quantitative Research is needed
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The user knows to use data table feature in Excel
How to make and use a data table in Excel
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References
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Szokolay, Steven. Introduction to architectural science. Routledge, 2012. pp 227
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Manual on Door and Window Details for Residential Buildings https://cpwd.gov.in/Publication/manualdw.pdf
pp30, fig. 18
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Mackworth, Norman H. "Finger numbness in very cold winds." Journal of applied Physiology 5.9 (1953): 533-543.
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Li, Zhengquan, et al. "Observed surface wind speed declining induced by urbanization in East China." Climate dynamics 50.3 (2018): 735-749.
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Liu, Junkai, et al. "The impact of urbanization on wind speed and surface aerodynamic characteristics in Beijing during 1991–2011." Meteorology and Atmospheric Physics 130.3 (2018): 311-324.
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Related Readings & Notes
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Bhamare, Dnyandip K., Manish K. Rathod, and Jyotirmay Banerjee. "Evaluation of cooling potential of passive strategies using bioclimatic approach for different Indian climatic zones." Journal of Building Engineering 31 (2020): 101356.Analysis tool for the evaluation of the cooling potential of passive strategies for different Indian climatic zones is developed.Passive cooling strategies are defined in the bioclimatic chart by extending the boundaries of the comfort zone.Analysis is carried out in terms of monthly averaged hourly measured climatic data pointsComfort improvements are highest for natural ventilation with cooling potentialThermal mass with night ventilation also shows good cooling potential for the composite climatic environment. Direct evaporative cooling is the more effective passive strategy for hot and dry climatic zone.
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Yuan, Chao, Edward Ng, and Leslie K. Norford. "Improving air quality in high-density cities by understanding the relationship between air pollutant dispersion and urban morphologies." Building and Environment 71 (2014): 245-258.study clarifies the air pollutant dispersion mechanism in high-density cities.

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Study addresses the urban traffic pollutant problems and provides the solutions.

The study validates LES and RANS models using wind tunnel data.Study provides understandings to map the pollutant dispersion in the urban areas
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Choi, Younhee, and Doosam Song. "How to quantify natural ventilation rate of single-sided ventilation with trickle ventilator?." Building and Environment 181 (2020): 107119.Study quantifies the natural ventilation rate in single-sided natural ventilation with a trickle ventilatorThe study provides understandings to map the pollutant dispersion in the urban areas.The study relies on a parametric study that tests the performance of design options.

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Tewari, Priyam, Sanjay Mathur, and Jyotirmay Mathur. "Thermal performance prediction of office buildings using direct evaporative cooling systems in the composite climate of India." Building and Environment 157 (2019): 64-78.Thermal monitoring of buildings using DEC systems is performed.Taguchi L16 OA is adopted for performing simulation runs.Mathematical correlations for prediction of supply air conditions and indoor environment are presented.Around 52% of discomfort can be eliminated with DEC in Indian composite climate
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Rawal, Rajan, et al. "Adaptive thermal comfort model based on fields studies in five climate zones across India." Building and Environment (2022): 109187.An adaptive model is proposed for mixed-mode and naturally ventilated residences across the Indian climates.

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Fan/window operation and change in clothing insulation were the key adaptive responses.


Comfort modelling is explored in correlation with Universal Thermal Climate Index.		Indian residential occupants are more adaptive than as predicted by ASHRAE-55, EN 15251, and PMV modelsFan/window operation and change in clothing insulation were the key adaptive responses.


Comfort modelling is explored in correlation with Universal Thermal Climate Index.
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Wu, Yuxin, et al. "Thermal adaptation of the elderly during summer in a hot humid area: Psychological, behavioral, and physiological responses." Energy and Buildings 203 (2019): 109450.Elderly persons as passive users of air conditioners preferred cooling by natural ventilation
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Mlakar, Jana, and Janez Štrancar. "Overheating in residential passive house: Solution strategies revealed and confirmed through data analysis and simulations." Energy and Buildings 43.6 (2011): 1443-1451.these houses are weakly coupled to an environment, any internal energy gains are difficult to be released against small temperature gradients, windows-opening during the nights in hot summer days, strict shading of the southern and western windows as well as minimization of internal energy sources are necessary and sufficient to keep internal temperature on the comfort level
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