| 2023 |
Renewable Energy,202,1021-1031 |
Experimental thermal performance investigation of a direct absorption solar collector using hybrid nanofluid of gold nanoparticles with natural extract of Azadirachta Indica leaves |
| 2022 |
Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 44(2), 3823-3835 [SCIE, Q2, I.F.=3.447] |
Comparative thermal performance enhancement study of a reverse – irradiated and direct– irradiated direct absorption solar collector using silver nanofluid |
| 2022 |
Sustainability, 14(9), 4997 [SCIE, Q2, IF. 3.25] |
Investigation on subject’s seasonal perception and adaptive actions in naturally ventilated hostel dormitories in the composite climate zone of India |
| 2022 |
Energy and Built Environment, 3(2), 171-180 [Scopus] |
Thermal performance and comfort assessment of U-shape and helical shape earth-air-heat exchanger in India |
| 2022 |
Journal of Building Engineering, 46,103844 [SCIE, Q1, I.F.=5.32] |
Subject’s thermal adaptation in different built environments: An analysis of updated metadata-base of thermal comfort data in India |
| 2022 |
Scientific data (Nature Research) 9, Article number: 369 (2022) [SCIE, Q1, I.F. 6.44] |
A Global Building Occupant Behavior Database |
| 2022 |
Sustainable Energy Technologies and Assessments, 52(D),102325 [SCIE, Q2, I.F. 5.35] |
Experimental investigation of a volumetric solar collector using natural extract of Azadirachta Indica based heat transfer fluids |
| 2022 |
Advances in building energy research, 16(1), 1-35 [ESCI] |
Quantification of thermal environments and comfort expectations of residents in hostel dormitories during hot and humid days in Indian composite climate |
| 2022 |
Energies 2022, 15(15), 5637 [SCIE, I.F. 3.25] |
Impact of Courtyard Concept on Improving Energy Efficiency and Homes Privacy in Saudi Arabia |
| 2022 |
International Journal of Environment and Sustainable Development,21 (1-2), 175-205 [ESCI] |
A building bio-climatic design tool incorporating passive strategies in residential dwellings design of composite climate of India |
| 2022 |
Environmental Progress & Sustainable Energy (Accepted) [SCIE, Q2, I.F.=2.41] |
Thermal performance analysis of a novel direct absorption solar collector augmented solar still using silver nanofluids |
| 2022 |
figshare (Data repository) |
A global building occupants behaviour database |
| 2021 |
Solar Energy, 227, 365-425 [SCIE, Q1, I.F.=5.74] |
Progress, challenges and future prospects of plasmonic nanofluid based direct absorption solar collectors - A state-of-the-art review |
| 2021 |
Journal of the Brazilian Society of Mechanical Sciences and Engineering, 43 (12), 540 [SCIE, Q3, I.F.=2.22] |
POTENTIAL OF MWCNT/R134A NANOREFRIGERANT ON PERFORMANCE AND ENERGY CONSUMPTION OF VAPOR COMPRESSION CYCLE: A DOMESTIC APPLICATION |
| 2021 |
Building and Environment, 197(6),107874 [SCI, Q1, I.F.=6.456] |
Adaptive thermal comfort study of workers in a mini-industrial unit during summer and winter season in a tropical country, India |
| 2021 |
Journal of Building Engineering, 40, 102701 [SCIE, Q1, I.F.=5.32] |
Seasonal comfort temperature and occupant’s adaptive behavior in a naturally ventilated university workshop building under the composite climate of India |
| 2020 |
Energy and Buildings,217,109970 [SCIE, Q1, I.F.=5.879] |
Occupant’s thermal comfort expectations in naturally ventilated engineering workshop building: A case study at high metabolic rates |
| 2020 |
Renewable Energy, 162,1958-1969 [SCIE, Q1, I.F.=8.00] |
Experimental investigation of a direct absorption solar collector using ultra stable gold plasmonic nanofluid under real outdoor conditions |
| 2019 |
Building and Environment,163,106309 [SCI, Q1, I.F.=6.456] |
Field investigation on occupant's thermal comfort and preferences in naturally ventilated multi-storey hostel buildings over two seasons in India |
| 2019 |
Journal of Building Engineering,23, 90-106 [SCIE, Q1, I.F.=5.32] |
Comparative study of thermal comfort and adaptive actions for modern and traditional multi-storey naturally ventilated hostel buildings during monsoon season in India |
| 2019 |
Energy and Buildings,188-189,149-174 [SCIE, Q1, I.F.=5.879] |
Progress in thermal comfort studies in classrooms over last 50 years and way forward |
| 2019 |
Energy and Buildings, 199, 145-163 [SCIE, Q1, I.F.=5.879] |
Field study on indoor thermal comfort of office buildings using evaporative cooling in the composite climate of India |
| 2018 |
Building and Environment,143,532-547 [SCI, Q1, I.F.=6.456] |
Evaluation of comfort preferences and insights into behavioural adaptation of students in naturally ventilated classrooms in a tropical country, India |
| 2018 |
Journal of Building Engineering,20, 569-584 [SCIE, Q1, I.F.=5.32] |
Thermal performance and comfort potential estimation in low-rise high thermal mass naturally ventilated office buildings in India: An experimental study |
| 2018 |
Building and Environment,128(c),287-304 [SCI, Q1, I.F.=6.456] |
Status of thermal comfort in naturally ventilated classrooms during the summer season in the composite climate of India |
| 2017 |
Building and Environment,122,324-342 [SCI, Q1, I.F.=6.456] |
Development of mathematical correlations for indoor temperature from field observations of the performance of high thermal mass buildings in India |
| 2016 |
Building and Environment,109,135-153 [SCI, Q1, I.F.=6.456] |
An adaptive approach to define thermal comfort zones on psychrometric chart for naturally ventilated buildings in composite climate of India |
| 2016 |
Energy for Sustainable Development,33,108-121 [SCI, Q2, I.F.=5.223] |
Thermal Comfort Assessment and Characteristics of Occupant’s Behavior in Naturally Ventilated Buildings in Composite Climate of India |
