SCOPUS Profile

ORCID Profile

GOOGLE SCHOLAR

Dr. Manoj Ukamanal

Assistant Professor – II

Dr. Manoj Ukamanal is working as Assistant Professor in School of Mechanical Engineering in KIIT University from 2015. He received his Ph. D degree in Mechanical Engineering from KIIT University Bhubaneswar in the year of 2019 and M. Tech in the year of 2014. He was previously an analyst engineer in TATA Consultancy Services, Pune, India. His research interests are in Impingement heat transfer, Nano-particle and nanofluid application in heat transfer, Computational fluid dynamics, Hard Machining, Thermal Systems Design and Optimization and Run-out table in steel rolling mills. He has been teaching thermal engineering related courses in UG & PG level. He has developed many automation tools while serving in TCS and KIIT. He has published 2 international patents and 15 research articles in journals / conferences (SCI/SCOPUS).

PERSONAL DETAILS

Educational Qualification:
B.E, M. Tech (Thermal), Ph. D. (Thermal)

Designation

  • Assistant Professor – II

Research Interests:

  1. Impingement Heat Transfer and Control
  2. CFD
  3. Hard Machining
  4. Thermal Systems Design and Optimization
  5. Run-out table in steel rolling mills

Administrative Responsibilities

  • Assistant Controller of Examination – SME
  • FIC – NI Innovation Centre
  • FIC – School Database and Website Management

Publication Details

SCI/SCI-E Indexed Journals

  1. Ukamanal, M.; Mishra, P.C.; Sahoo, A.K. (2019). Effects of Spray Cooling Process Parameters on Machining Performance AISI 316 Steel: a Novel Experimental Technique. Experimental Techniques, (), –. doi:10.1007/s40799-019-00334-y
  2. Kumar, Ramanuj; Sahoo, Ashok Kumar; Mishra, Purna Chandra; Das, Rabin Kumar; Ukamanal, Manoj (2018). Experimental investigation on hard turning using mixed ceramic insert under accelerated cooling environment. International Journal of Industrial Engineering Computations, (), 509–522. doi:10.5267/j.ijiec.2017.11.002
  3. Nayak, Santosh K.; Mishra, Purna C.; Ukamanal, Manoj; Chaini, Rajeswari (2017). Experimental Result on Heat Transfer during Quenching of Hot Steel Plate by Spray Impingement. Heat Transfer Engineering, (), 0–0. doi:10.1080/01457632.2017.1341193
  4. Chandra Mishra, Purna; Kumar Nayak, Santosh; Ukamanal, Manoj (2017). Effect of Impingement Density and Nozzle to Target Distance on Spray Cooling of Steel Plate—An Experimental Investigation. Heat Transfer Engineering, 38(13), 1198–1208. doi:10.1080/01457632.2016.1239946

SCOPUS Indexed Journals:

  1. Cooling During AISI 316 SS Turning. In: Lecture Notes in Mechanical Engineering. Springer, Singapore, pp. 277–285.
  2. Ukamanal, M., P. Chandra Mishra, et al. (2018):(a): Temperature distribution during AISI 316 steel turning under TiO2-water based nanofluid spray environments. Materials Today: Proceedings (5)9: 20741–20749.
  3. Padhy, S.M., A.H. Kambli, et al. (2018):(a): Cooling mechanisms on run out table: A technical review. Materials Today: Proceedings (5)9: 18162–18169.
  4. Panda, S.R., P.C. Mishra, et al. (2018): Effects of modified waste fly ash reinforcement on mechanical behavior of novel ALFA composite. Materials Today: Proceedings (5)11: 24827–24835.
  5. Ukamanal, M., P.C. Mishra, et al. (2018):(c): Modeling and simulation for thermal management of hot surfaces based on state space method. In: International Conference on Computational Methods for Thermal Problems. , pp. 895–898.
  6. Kumar, R., R.K. Das, et al. (2018):(a): Comparative Assessment on Cutting Performances of Multi Coated Carbide Insert in Dry and Spray Impingement Cooling Environments. In: IOP Conference Series: Materials Science and Engineering. Institute of Physics Publishing.
  7. Mishra, P.C., D.K. Das, et al. (2015): Multi-response optimization of process parameters using Taguchi method and grey relational analysis during turning AA 7075/SiC composite in dry and spray cooling environments. International Journal of Industrial Engineering Computations (6)4: 445–456.
  8. Mishra, S.R., P.C. Mishra, et al. Ultrafast Cooling : A Methodology to Achieve Energy Efficient and Environmentally Benign Manufacturing. Energy Technology & Ecological Concerns: A Contemporary Approach: 138–141.
  9. Nayak, S.K., B.P. Pattanaik, et al. (2013): Experimental investigation on a diesel engine fuelled with biodiesel produced from waste cooking oil. In: 2013 International Conference on Energy Efficient Technologies for Sustainability. IEEE, pp. 501–507.

Projects

Laboratory Details

Awards and Achievements

  • Awarded certificate of appreciation from TCS, twice for the performances in projects, which were highly appreciated by the client.

Reviewer

  • Journal of Cleaner Production

Professional Membership

  1. Member: Institution of Engineering and Technology (IET)
  2. Life Member: Indian Society for Technical Education (ISTE)
  3. Life Member: International Association of Engineers (IAENG)