Investigation on air conditioning load patterns and electricity consumption of typical residential buildings in tropical wet and dry climate in India

Ramapragada, Pavan; Tejaswini, Dharani; Garg, Vishal; Mathur, Jyotirmay; Gupta, Rajat

doi:10.1186/s42162-022-00228-1

Cited by 10 publications

(5 citation statements)

References 20 publications

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“…In a residential setting, Amega et al (2022) investigated how energy efficiency policies affect electricity consumption and carbon dioxide emissions in Lomé, Togo. Ramapragada et al (2022) explored air conditioning's impact on electricity use in Indian homes, providing insights relevant to university energy management, though limited by its specific geographic focus.…”

Section: Introductionmentioning

confidence: 99%

Eco-Friendly Energy Efficient Classrooms and Sustainable Campus Strategies: A Case Study on Energy Management and Carbon Footprint Reduction

Patil,

Tanavade

2024

IJEEP

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This research paper presents a comprehensive study on energy management and carbon footprint reduction in an educational institutional campus. It focuses on implementing energy-efficient technologies and practices to minimize energy consumption and environmental impact. The study encompasses four cases, each addressing different aspects of energy use in a university setting, including the installation of LED lighting, programmable remote switches, and high-efficiency air conditioning systems. The methodology involves a detailed analysis of energy consumption patterns, using smart energy meters and theoretical calculations. Case I establishes a baseline energy consumption, while subsequent cases implement energy-saving measures. Case II involves replacing traditional tube lights with energy-efficient LED lights, resulting in considerable energy savings. Case III extends these savings further by integrating programmable remote switches mapped with student timetables. Finally, Case IV proposes the replacement of older air conditioning units with 25 SEER models, leading to significant reductions in energy use. The results highlight the effectiveness of these interventions. Case II achieves a 66.67% energy saving, while Case III yields up to 77.78% energy saving in lighting and 33.34% in air conditioning. In Case IV, the adoption of high-efficiency air conditioners can result in a 52% energy saving during teaching weeks. The economic benefits of these measures are substantial, with cost savings per classroom ranging from 7.65% in Case II to 53.46% in Case IV. Moreover, the environmental impact of these energy conservation techniques is substantial. The study reports reductions in carbon emissions from 14.71metric tons of carbon dioxide equivalent (MT CO2e) in base Case I to 6.85 MT CO2e in Case IV. The overall carbon emission reductions for Cases II, III, and IV are 7.61%, 36.37%, and 53.43%, respectively. This study demonstrates the profound impact of integrated energy management strategies in reducing the carbon footprint and energy consumption in educational institutions, offering a model for sustainable and economically viable operations.

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Section: Introductionmentioning

confidence: 99%

Eco-Friendly Energy Efficient Classrooms and Sustainable Campus Strategies: A Case Study on Energy Management and Carbon Footprint Reduction

Patil,

Tanavade

2024

IJEEP

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“…In the Kingdom of Saudi Arabia (KSA), electricity consumption in the residential sector accounts for 50% of total production (Alqahtani and Balta-Ozkan, 2021); 26% of U.S. households rely on electricity as their sole energy supply (Michelle Lewis, 2022). The residential sector accounts for about 24% of India's total electricity consumption (Ramapragada, 2022); which is already close to 40% in China (CESY, 2020). Continued high growth in electricity demand has contributed to a rise in enthusiasm for clean, sustainable energy generation and energy independence.…”

Section: Introductionmentioning

confidence: 99%

Research on energy consumption in household sector: a comprehensive review based on bibliometric analysis

Wang,

Zhao,

Gao

et al. 2024

Front. Energy Res.

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Households are an important sector in carrying out human development activities, accounting for more than 30% of the total global energy consumption. The continued growth of household energy consumption (HEC) and carbon emissions is threatening economic and environmental sustainability. This review focuses on the research in the field of HEC and conducts a bibliometric analysis of research articles from the Web of Science Core Collection since 2000. The results show that: 1) HEC research has undergone rapid development since 2014, and interdisciplinary fusion and collaborative research have become dominant trends. 2) Keyword co-occurrence analysis clearly identifies the current urgent themes, including energy demand and its determinants, environmental impact factors and assessments, and energy-saving technologies and emission reduction measures. 3) The analysis of citations reveals that economic models, such as input-output models and life cycle assessment, are frequently employed in the field of HEC. Based on a summary of household energy-saving and emissions reduction work, this paper critically discusses the limitations of existing measures such as smart home technology, sustainable energy systems, and behavioral interventions. The main directions for promoting household energy-saving development in the future are identified: including improving the security and customer engagement of smart home technology, focusing on the availability and stability of sustainable energy, and paying more attention to low-income and aging households in behavioral intervention measures. One of the important obstacles facing research is how to reduce energy management efficiency and usage costs through technology and policy.

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“…The understanding derived from this review can guide university administrators, energy managers, and researchers in establishing effective energy management practices and substantially reducing carbon footprints on their campuses. Ramapragada et al (2022) studied the patterns of air conditioning usage and its impact on electricity consumption in Indian residential buildings located in a tropical wet and dry climate zone. Their goal was to understand the key factors affecting electricity use in homes, especially air conditioning settings and usage hours.…”

Section: Introductionmentioning

confidence: 99%

“…Their research provides useful information for energy management in university campuses, but it has limitations, including a geographically specific focus and lack of consideration for other factors such as occupant behavior or use of other appliances. The paper suggests further research to include broader scope, different air conditioning technologies, energy-efficient strategies, occupant behavior, and real-time energy efficiency feedback systems (Ramapragada et al, 2022). Karasu (2010) studied the effect of Daylight Saving Time (DST) on electricity use for lighting in buildings throughout Turkey.…”

Section: Introductionmentioning

confidence: 99%

Strategic Energy Management and Carbon Footprint Reduction in University Campuses: A Comprehensive Review

Tanavade,

Patil,

Sudhir

et al. 2023

IJEEP

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This review paper offers a detailed analysis and summary of current studies related to energy management and carbon footprint reduction in university campuses. Using insights from different research papers, the review highlights the necessity for strategic and sustainable energy management approaches. The research reviewed explores a wide range of methodologies, including the examination of energy consumption, the identification of areas for improvement, the application of energy management and optimization techniques, and the use of renewable and sustainable energy strategies. It is evident from the review that successful energy management and carbon footprint reduction depend on energy management systems, integration of renewable energy, encouraging behavioural changes, and efficient resource use. The review paper is divided into six sections: understanding and enhancing energy consumption, Techniques for Energy Management and Optimization, random and systematic approaches to energy management, Energy Management Systems and their Applications, approaches for sustainable and renewable energy and carbon footprint reduction techniques. The review also identifies areas of future research in the field. It aims to serve as a valuable guide for university administrators, energy managers, and researchers seeking to implement sustainable energy practices and reduce carbon emissions on university campuses.

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Investigation on air conditioning load patterns and electricity consumption of typical residential buildings in tropical wet and dry climate in India

Cited by 10 publications

References 20 publications

Eco-Friendly Energy Efficient Classrooms and Sustainable Campus Strategies: A Case Study on Energy Management and Carbon Footprint Reduction

Eco-Friendly Energy Efficient Classrooms and Sustainable Campus Strategies: A Case Study on Energy Management and Carbon Footprint Reduction

Research on energy consumption in household sector: a comprehensive review based on bibliometric analysis

Strategic Energy Management and Carbon Footprint Reduction in University Campuses: A Comprehensive Review

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