Institutional Repository IIT Bombay
Institutional repository of IIT Bombay is a research produced at IITB. Here we present a selection of our best research including full-text of book chapters, conference/proceeding papers,technical reports, journal pre-prints & post-prints, working papers, Patents and others like annual reports etc.
Email: dspace@iitb.ac.in
Browsing by Author KANGUDE, P
Showing results 1 to 12 of 12
| Issue Date | Title | Author(s) |
| 2018 | Experiments on the effects of nanoparticles on subcooled nucleate pool boiling | KANGUDE, P; BHATT, D; SRIVASTAVA, A |
| 2020 | Performance evaluation of alumina nanofluids and nanoparticles-deposited surface on nucleate pool boiling phenomena | MODI, M; KANGUDE, P; SRIVASTAVA, A |
| 2020 | Performance evaluation of alumina nanofluids and nanoparticles-deposited surface on nucleate pool boiling phenomena | MODI, M; KANGUDE, P; SRIVASTAVA, A |
| 2020 | Performance evaluation of alumina nanofluids and nanoparticles-deposited surface on nucleate pool boiling phenomena | MODI, M; KANGUDE, P; SRIVASTAVA, A |
| 2019 | Performance of SiO2-water nanofluids for single bubble-based nucleate pool boiling heat transfer | KANGUDE, P; SRIVASTAVA, A |
| 2019 | Performance of SiO2-water nanofluids for single bubble-based nucleate pool boiling heat transfer | KANGUDE, P; SRIVASTAVA, A |
| 2019 | Performance of SiO2-water nanofluids for single bubble-based nucleate pool boiling heat transfer | KANGUDE, P; SRIVASTAVA, A |
| 2019 | Simultaneous mapping of single bubble dynamics and heat transfer rates for SiO2/water nanofluids under nucleate pool boiling regime | BHATT, D; KANGUDE, P; SRIVASTAVA, A |
| 2019 | Simultaneous mapping of single bubble dynamics and heat transfer rates for SiO2/water nanofluids under nucleate pool boiling regime | BHATT, D; KANGUDE, P; SRIVASTAVA, A |
| 2020 | Understanding the growth mechanism of single vapor bubble on a hydrophobic surface: Experiments under nucleate pool boiling regime | KANGUDE, P; SRIVASTAVA, A |
| 2020 | Understanding the growth mechanism of single vapor bubble on a hydrophobic surface: Experiments under nucleate pool boiling regime | KANGUDE, P; SRIVASTAVA, A |
| 2020 | Understanding the growth mechanism of single vapor bubble on a hydrophobic surface: Experiments under nucleate pool boiling regime | KANGUDE, P; SRIVASTAVA, A |
