Please check my profile Google Scholar | ResearchGate for my latest publications.


International Journal Publications

  1. Budaniya M and Rai AC*, 2022. Effectiveness of plants for passive removal of particulate matter is low in the indoor environment. Building and Environment 222, 109384, article link.
  2. Tiwari V, Rai AC*, and Srinivasan P, 2021. Parametric analysis and optimization of a latent heat thermal energy storage system for concentrated solar power plants under realistic operating conditions. Renewable Energy 174, 305-319, article link.
  3. Ukey R and Rai AC*, 2021. Impact of global warming on heating and cooling degree days in major Indian cities. Energy and Buildings 244, 111050, article link.
  4. Rai AC*, 2021. Energy performance of phase change materials integrated into brick masonry walls for cooling load management in residential buildings, Building and Environment 199, 107930, article link.
  5. Sharma V and Rai AC*, 2020. Performance assessment of residential building envelopes enhanced with phase change materials. Energy and Buildings 208, 109664, article link.
  6. Rai AC, Kumar P, Pilla F, Skouloudis AN, Di Sabatino S, Ratti C, Yasar A, and Rickerby D, 2017. End-user perspective of low-cost sensors for outdoor air pollution monitoring. Science of the Total Environment 607, 691-705, article link.
  7. Rai AC, Lin C-H, and Chen Q, 2015. Numerical modeling of particle generation from ozone reactions with human-worn clothing in indoor environments. Atmospheric Environment 102, 145-155, article link.
  8. Rai AC, Lin C-H, and Chen Q, 2014. Numerical modeling of volatile organic compound emissions from ozone reactions with human-worn clothing in an aircraft cabin. HVAC&R Research 20, 922-931, article link.
  9. Rai AC, Guo B, Lin C-H, Zhang J, Pei J, and Chen Q, 2014. Ozone reaction with clothing and its initiated VOC emissions in an environmental chamber. Indoor Air 24, 49-58, article link.
  10. Rai AC, Guo B, Lin C-H, Zhang J, Pei J, and Chen Q, 2013. Ozone reaction with clothing and its initiated particle generation in an environmental chamber. Atmospheric Environment 77, 885-892, article link.
  11. Rai AC and Chen Q, 2012. Simulations of ozone distributions in an aircraft cabin using computational fluid dynamics. Atmospheric Environment 54, 348-357, article link.

*Dr. Rai is the corresponding author.


Conference Articles

  1. Budaniya M and Rai AC*, 2021. Phytoremediation of airborne particulate matter in indoor environments. Healthy Buildings Europe, Oslo, Norway. Conferred distinction award!
  2. Rai AC and Kumar P, 2017. Quantifying the reduction of air pollution by vegetation in urban areas. International Conference on Harmonisation within Atmospheric Dispersion Modelling for Regulatory Purposes, Bologna, Italy.
  3. Rai AC, Prabhudharwadkar D, Murthy S, Giametta A, and Johns D, 2016. Effect of air-curtains on labyrinth seal performance. ASME Turbo Expo, Seoul, South Korea.
  4. Chen Q, Rai AC, and Lin C-H, 2016. Numerical modeling of VOC emissions from ozone reactions with human-worn clothing in an aircraft cabin. ASHRAE Winter Conference, Orlando, FL, USA.
  5. Rai AC, Lin C-H, and Chen Q, 2014. Modeling VOC emissions from ozone reactions with human-worn clothing in an aircraft cabin. International Conference on Indoor Air Quality and Climate, Hong Kong.
  6. Rai AC, Chen C, Lin C-H, and Chen Q, 2014. Numerical modeling of particle generation from ozone reactions with human-worn clothing in an environmental chamber. International Conference on Indoor Air Quality and Climate, Hong Kong.
  7. Rai AC and Chen Q, 2012. Computational fluid dynamics modeling of ozone distributions in an aircraft cabin. International Conference on Energy and Environment, Boulder, CO, USA.
*Dr. Rai is the corresponding author.


Patent

  1. Labyrinth seal system and an associated method thereof (Indian patent application # 6599/CHE/2015, published in June 2017).