INTRODUCTION Recent development has seen a drastic increase in energy use trends in Saudi Arabian buildings leading to a demand for an effective course of action for energy conservation and production.A case study-bas...INTRODUCTION Recent development has seen a drastic increase in energy use trends in Saudi Arabian buildings leading to a demand for an effective course of action for energy conservation and production.A case study-based research initiative explor-ing near-zero energy potential in Saudi Arabia was undertaken.A 4-bedroom detached single-family faculty residence at King Fahd University of Petroleum and Minerals(KFUPM)representing common regional housing design trends was utilized.A base case simulation model of the house was developed and val-idated using short-term and real-time energy consumption data.Three sets of strategies:passive design strategies,representative codes and standards,and renewable technology were employed in the new design of the house.Passive strategies com-prised a green roof,a ventilated wall system,a sloped roof,and insulation for thermal bridges.These alternatives helped reduce the annual energy consumption of the house by 17.2%.The most recent version of the International Energy Conserva-tion Code(IECC 2012)was also incorporated along with ASHRAE Standard 62.2 for ventilation.The code and standard together reduced the annual energy consumption by 31.1%.Solar PV was then utilized to reduce grid utilization for the remainder of the house energy loads.This strategy provided 24.7%of the total energy consumed annually.A combination of strategies showed a 70.7%energy consumption reduction,thereby decreasing the energy index of the house from 162.9 to 47.7 kWh/m^(2)/yr.The Zero Energy Building(ZEB)concepts and strategies utilized in this study demonstrate a socially responsible approach to achieving near-zero energy performance for an existing house.展开更多
文摘INTRODUCTION Recent development has seen a drastic increase in energy use trends in Saudi Arabian buildings leading to a demand for an effective course of action for energy conservation and production.A case study-based research initiative explor-ing near-zero energy potential in Saudi Arabia was undertaken.A 4-bedroom detached single-family faculty residence at King Fahd University of Petroleum and Minerals(KFUPM)representing common regional housing design trends was utilized.A base case simulation model of the house was developed and val-idated using short-term and real-time energy consumption data.Three sets of strategies:passive design strategies,representative codes and standards,and renewable technology were employed in the new design of the house.Passive strategies com-prised a green roof,a ventilated wall system,a sloped roof,and insulation for thermal bridges.These alternatives helped reduce the annual energy consumption of the house by 17.2%.The most recent version of the International Energy Conserva-tion Code(IECC 2012)was also incorporated along with ASHRAE Standard 62.2 for ventilation.The code and standard together reduced the annual energy consumption by 31.1%.Solar PV was then utilized to reduce grid utilization for the remainder of the house energy loads.This strategy provided 24.7%of the total energy consumed annually.A combination of strategies showed a 70.7%energy consumption reduction,thereby decreasing the energy index of the house from 162.9 to 47.7 kWh/m^(2)/yr.The Zero Energy Building(ZEB)concepts and strategies utilized in this study demonstrate a socially responsible approach to achieving near-zero energy performance for an existing house.
