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Heat Transfer and Energy Consumption of Passive House in a Severely Cold Area: Simulation Analyses

Fang Wang, Wen‐Jia Yang, Wei-Feng Sun

2020Energies19 citationsDOIOpen Access PDF

Abstract

In order to improve the heat transfer in enclosure structure of passive houses in cold area with complex climatic conditions, a three-dimensional model is established to investigate the time-by-case changes of outdoor temperature and solar irradiation based on the principle of integral change and the method of response coefficient and harmonious wave reaction. The variations of hourly cooling and heating loads with outdoor temperature and solar irradiation are analyzed. As simulated by cloud computing technology, the passive building energy consumption meets the requirements of passive building specifications. In the present research, super-thermal insulation external wall, enclosure structure of energy-conserving doors and windows, and high efficiency heat recovery system are employed to achieve a constant temperature without active mechanical heating and cooling, which suggests a strategic routine to remarkably decrease the total energy consumption and annual operation cost of passive building.

Topics & Concepts

EnclosureDoorsPassive solar building designPassive coolingEnvironmental scienceEnergy consumptionPassive houseHeat transferNuclear engineeringThermalMechanical engineeringMeteorologyEfficient energy useEngineeringMechanicsElectrical engineeringPhysicsBuilding Energy and Comfort OptimizationSolar Energy Systems and TechnologiesUrban Heat Island Mitigation