Abstract
While design optimization of buildings seeks to improve energy efficiency and, thus, leads to greenhouse gas emissions reduction, the thermal performance of buildings can be compromised. Thermal performance is an important aspect as it directly affects the health and well-being of occupants. This study aims to investigate using a simple simulation tool to examine the correlation between a set of building physical design parameters such as orientation, shading and shape, optimization of which helps to make a positive impact on the thermal performance of the building in a cold climate zone. The thermal performance simulation tool Passive Design Assistant (PDA) was used to build a simulation model and test the interdependence between the design parameters and thermal performance. The results indicate that modifications of building’s parameters such as orientation and shape or the addition of shadings lead to improvements of the internal thermal temperature, heat gain and loss, hence the optimal parameters should prevail. A case study for cold climate is analyzed, in Nur-Sultan, Kazakhstan, the optimal orientation for the squared building is 30° from East to South (building rotated 120°) and the optimal building’s shape is rectangular, which attracts up to 2.6 times higher solar gains than the square one. Moreover, the use of shadings can regulate the internal temperature of the building by 2 °C. General recommendations based on the findings are made and could be considered in the earlier stage of building design and construction processes.
Highlights
Rapid urbanization and population growth processes in both developed and developing countries lead to increasing pressure on the building sector in terms of the need for new buildings
This paper aims to use the Passive Design Assistant (PDA) tool to examine the optimal passive design for thermal comfort in a typical cold climate zone based on the major passive design principles
Present-day challenges associated with energy scarcity and carbon dioxide emissions are creating a pressing demand from the building sector to deliver energy-efficient and sustainable buildings
Summary
Rapid urbanization and population growth processes in both developed and developing countries lead to increasing pressure on the building sector in terms of the need for new buildings. The continuously evolving regulations and construction standards, especially in developed countries, tend to demand delivering more sustainable, energy-efficient and thermally comfortable buildings for occupants than before [1]-[3]. Along with the role of energy use and building sustainability, thermal comfort is becoming a prominent aspect in recent years due to improving living condition requirements and evolving research around the topic of human well-being [6]. According to the American Society of Heating, Refrigerating and Air-Conditioning Engineers [7], thermal comfort is defined as the “degree of subjective satisfaction of humans with the thermal environment”
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