Welcome to SustainableVentilation.com — a pioneering initiative focused on creating energy-efficient and sustainable ventilation systems for modern infrastructure.
The project addresses challenges of heat transfer and airflow, particularly in buildings with metal roofs and RCC structures. Our work integrates innovative techniques, including:
Dr. Sanjeev Damodar Suryawanshi received his BE in Mechanical Engineering from Pune University in 1992, his ME in Heat Power from Shivaji University, Kolhapur in 2002, and his PhD in Mechanical Engineering from Shivaji University, Kolhapur in 2010. He is also a Certified Energy Auditor of the Bureau of Energy Efficiency (BEE) since 2006. His research interests include solar thermal energy, the development of products for harvesting solar thermal energy, innovation in heating, ventilation, and air conditioning using unconventional methods, and the design and optimization of application-specific solar products. He has developed several working prototypes, ten of which have been awarded patents by national and international agencies and are currently in the commercialization phase for societal benefit. Corresponding author Email: sanjeev.suryawanshi@ssvpsengg.ac.in
Dr. Atul Vasant Karanjkar received his BE in Mechanical Engineering (Shivaji University,1996), ME in Mechanical Design (Savitribai Phule Pune University, 2006), and Ph.D. (NIT Durgapur, 2018). His research interests include Mechanical Vibrations, Machinery dynamics, Mechanical design, and Mechatronics. He has received a fellowship at IIT Delhi. He has published about 20 research papers in national and International repute journals. He has developed an assembly component for the automotive industry. He has developed one working prototype that has been awarded a patent. Email:av.karanjkar@ssvpsengg.ac.in
Diptej Shinde completed his Diploma in Mechanical Engineering from MSBTE University in 2021 and graduated with a B.Tech in Mechanical Engineering from DBATU University in 2024. He actively contributed to the Sustainable Ventilation System project, focusing on energy-efficient solutions during his academic tenure. His interests include Passive Ventilation, Thermal Management Systems, FEA & CFD Simulation, and Pressure Vessel Design. Avishkar 2024 Zonal Level - 3rd ( Org at SGB Bhusaval) Avishkar 2024 University Level - Presented (No prize) (at DBatu uni, lonere) Pristine 2024 - 1st (organised by. SSVPS Comp dpt.) Also presented - at 2024 IIC Regional meet (Conference) Email: diptejshinde@gmail.com
Akshata Sanjeevkumar Deore Role: Team Member Akshata Deore is currently pursuing a B.Tech in Mechanical Engineering (2nd Year) at SSVPS's BSD College of Engineering, Dhule. She is actively contributing to the Sustainable Ventilation System project, which has achieved remarkable milestones, including selection for the Zonal Rounds in Avishkar, Securing 3rd rank in the Youth Festival Competition organized by the Government of India, Winning 1st Prize at ASM International, and advancing to Round 1 of Ingenium NIT Trichy. Akshata’s efforts have been recognized with a Platinum Ticket, earning her a spot in the finals of Eureka! at IIT Bombay. Email:akshatashardadeore123@gmail.com
Vishwavidhey Warudkar completed graduation in a B.Tech Mechanical Engineering from DBATU University in 2024. He actively contributed to the Sustainable Ventilation System project, focusing on energy-efficient solutions during his academic tenure. His interests include Passive Ventilation, Thermal Management Systems, and Pressure Vessel Design. Participated in Arth 2nd 2024-Winner & Pristine 2024 - Winner (organised by. SSVPS Comp dpt.) Email: vishwawarudkar987@gmail.com
Kirti Pakhale is a professional member of ASM International,completed her B.Tech in Mechanical Engineering from DBATU University in 2024. During her academic tenure, she even contributed to the Sustainable Ventilation System project, focusing on cost-effective solutions. She was a member of ASM International from December 2022 to 2023. Her areas of interest include thermal management, ventilation, and cost-effective development. She has also presented her work at ASM International 2022 and PSF 2024 . Additionally, she has implemented the use of bubble sheets for regulating air temperature in poultry farms. Email: pakhalekirti2001@gmail.com
Mansi Vijay Chavan completed her Diploma in Mechanical Engineering from MSBTE University in 2021 and pursued a B.Tech in Mechanical Engineering from DBATU University, graduating in 2024. She was an active member of the American Society for Materials (ASM) during 2023-2024 and is currently a professional member of ASM International. During her academic career, Mansi actively contributed to the *Sustainable Ventilation Project*, focusing on developing cost-efficient solutions for thermal comfort. Her interests include material procurement, market surveys, thermal management, installation processes, simulation drawing, data analysis, comparison of readings, graph creation, and the writing of reports and research papers. She has presented her work in various forums, including: ASM Mumbai Presented the sustainable ventilation concept for the first time, Avishkar 2023 (Zonal Level), Pristine 2024 winner 1st place, organized by the Computer Department of SSVPS College of Engineering, Arth 2k23 Winner competition held under the ASM Chapter, Delivered a presentation at Ranchi online conference on her research, which was subsequently published. Email: mavch10112001@gmail.com
In homes with sheet metal roofs, the metal roof is the primary source of heat gain. For the inhabited room to be comfortable, this heat gain must be decreased. Therefore, we are putting up a novel concept to lower this heat gain by installing a false ceiling beneath the metal roof with enough ventilation. Even though we have air conditioners and many other appliances these days, not everyone can afford them. This innovative idea addresses a promising solution to this issue.
Aluminum foil bubble sheets, turbo ventilators, solar chimneys, and RCC openings were incorporated.
False Ceilings and ducting/non-ducting systems tested for airflow efficiency.
Indoor temperature, humidity, and airflow rates were recorded.
Comparative studies demonstrated significant temperature reduction and airflow improvement.
| Date: – 04/04/2024 | |||
| Time | With IR film | Without IR film | Direct Radiation |
| 2:55 | 153 | 255 | 780 |
| 3:00 | 155 | 239 | 760 |
| 3:05 | 173 | 248 | 756 |
| 3:10 | 175 | 249 | 732 |
| 3:15 | 185 | 256 | 711 |
| 3:20 | 171 | 241 | 702 |
| 3:25 | 189 | 261 | 734 |
| 3:30 | 190 | 255 | 720 |
A pioneering initiative focused on creating energy-efficient and sustainable ventilation systems for modern infrastructure.
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