Author:
Ramapragada Pavan,Tejaswini Dharani,Garg Vishal,Mathur Jyotirmay,Gupta Rajat
Abstract
AbstractThe residential sector accounts for around 24% of the total electricity consumption in India. Recent studies show that air conditioners (ACs) have become a significant contributor to residential electricity consumption. Further, it is predicted that by 2037, the demand for ACs will increase by four times due to their affordability and availability. Not many studies have been found on residential AC usage patterns and the factors (AC load, setpoint, hours of usage) that influence household electricity consumption. This paper investigates the residential AC usage patterns and AC’s contribution to total residential electricity consumption. Twenty-five urban homes from a wet and dry climatic region of India were monitored for nine months (in 2019) to determine overall household electricity consumption patterns, AC usage, and indoor environment during summer, monsoon, and winter. Analysis of seasonal consumption patterns shows a significant difference in electricity usage between homes with ACs and homes without ACs during the summer season. The average electricity consumption for AC homes was 15.1 kWh/day during summer, 6.6 kWh/day during monsoon, and 6.1 kWh/day during the winter season. Results showed that AC alone contributed to 39% of the total household consumption in summers. The peak AC usage in all homes is observed during sleep hours which was generally between 10:00 pm and 6:00 am and the average AC runtime was 6.2 h. The average indoor temperature was recorded as 26.9 °C during the AC ON period. The AC peak load, i.e., the maximum electricity demand during the AC ON period, is 1.7 kW on average during the study period. The average annual consumption of homes with ACs was 2881 kWh, and for non-AC homes, the consumption was 2230 kWh. Findings from our analysis provide a detailed understanding of AC consumption profiles and the difference in electricity consumption characteristics between AC and non-AC homes across different seasons.
Publisher
Springer Science and Business Media LLC
Subject
Computer Networks and Communications,Energy Engineering and Power Technology,Information Systems
Reference39 articles.
1. Abhyankar N, Shah N, Letschert V, Phadke A (2017) Assessing the cost-effective energy saving potential from top-10 appliances in India. In 9th international conference on energy efficiency in domestic appliances and lighting (EEDAL)
2. Central Electricity Authority (2020) Growth of electricity sector in India. https://cea.nic.in/wp-content/uploads/pdm/2020/12/growth_2020.pdf. Accessed 1 Apr 2022
3. Climate Institute (2018) Cooling your homes but warming the planet: how we can stop air conditioning from worsening climate change. https://climate.org/cooling-your-home-but-warming-the-planet-how-we-can-stop-air-conditioning-from-worsening-climate-change/. Accessed 1 Jun 2022
4. Csoknyai T, Legardeur J, Abi Akle A, Horváth M (2019) Analysis of energy consumption profiles in residential buildings and impact assessment of a serious game on occupants’ behavior. Energy Build 1(196):1–20
5. Debnath KB, Jenkins DP, Patidar S, Peacock AD (2020) Understanding residential occupant cooling behaviour through electricity consumption in warm-humid climate. Buildings 10(4):78
Cited by
8 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献