Abstract
Energy efficiency is a key to reduced carbon footprint, savings on energy bills, and sustainability for future generations. For instance, in hot climate countries such as Qatar, buildings are high energy consumers due to air conditioning that resulted from high temperatures and humidity. Optimizing the building energy management system will reduce unnecessary energy consumptions, improve indoor environmental conditions, maximize building occupant’s comfort, and limit building greenhouse gas emissions. However, lowering energy consumption cannot be done despite the occupants’ comfort. Solutions must take into account these tradeoffs. Conventional Building Energy Management methods suffer from a high dimensional and complex control environment. In recent years, the Deep Reinforcement Learning algorithm, applying neural networks for function approximation, shows promising results in handling such complex problems. In this work, a Deep Reinforcement Learning agent is proposed for controlling and optimizing a school building’s energy consumption. It is designed to search for optimal policies to minimize energy consumption, maintain thermal comfort, and reduce indoor contaminant levels in a challenging 21-zone environment. First, the agent is trained with the baseline in a supervised learning framework. After cloning the baseline strategy, the agent learns with proximal policy optimization in an actor-critic framework. The performance is evaluated on a school model simulated environment considering thermal comfort, CO2 levels, and energy consumption. The proposed methodology can achieve a 21% reduction in energy consumption, a 44% better thermal comfort, and healthier CO2 concentrations over a one-year simulation, with reduced training time thanks to the integration of the behavior cloning learning technique.
Highlights
Arid climate prevails in the Arabian Gulf region characterized by mild, pleasant winters; hot, humid summers; and sparse rainfalls
Air conditioning (AC) in Qatar is more of a necessity than a luxury and accounts for about 80% of buildings energy consumption
To achieve sustainable development and a greener environment, energy efficiency plays a crucial role in which heating, ventilation, and air conditioning (HVAC) control paves the way forward [1]
Summary
Arid climate prevails in the Arabian Gulf region characterized by mild, pleasant winters; hot, humid summers; and sparse rainfalls. In Qatar, summer temperatures exceed 45 ◦ C and, on average, high temperature exceeds 27 ◦ C in the rest of the seasons. Air conditioning (AC) in Qatar is more of a necessity than a luxury and accounts for about 80% (highest in the world) of buildings energy consumption. The AC systems are running nonstop throughout the year to maintain thermal comfort. To achieve sustainable development and a greener environment, energy efficiency plays a crucial role in which heating, ventilation, and air conditioning (HVAC) control paves the way forward [1]. The main goal and challenge of any energy management system (EMS) is to achieve the right balance between occupant comfort and building energy requirements
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