Dr. Anu Mittal is an accomplished Assistant Professor in Mechanical Engineering with over 20 years of combined industry and academic experience, bringing a strong balance of practical engineering expertise and scholarly excellence. Dr. Anu Mittal earned a Ph.D. in Mechanical Engineering from Thapar University, Patiala, an M.Tech. in Thermal Engineering from NIT Kurukshetra, and a B.Tech. in Mechanical Engineering from BCET, Gurdaspur. Dr. Anu Mittal began a professional career as a Design Engineer at Fluor Daniel India Pvt. Ltd., Gurgaon, gaining eight years of intensive industry experience in piping system design and stress analysis for petrochemical plants and refineries. Transitioning to academia, Dr. Anu Mittal has served in teaching and research roles at GIMT Kurukshetra, NIT Kurukshetra, Thapar University, and currently at Thapar Institute of Engineering and Technology, Patiala. Research interests of Dr. Anu Mittal include thermal engineering, design optimization, and industrial system analysis, with notable involvement in a collaborative NTPC project on pneumatic fly-ash conveying systems. Dr. Anu Mittal’s technical skills span stress analysis, system optimization, and industry-oriented problem-solving, earning professional recognition for impactful teaching, research collaboration, and sustained contributions to mechanical engineering education and practice.
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Featured Publications
An investigation into flow mode transition and pressure fluctuations for fluidized dense-phase pneumatic conveying of fine powders
A. Mittal, S. S. Mallick, P. W. Wypych
Particuology, Vol. 16, pp. 187–195, 2014
Citations: 26
An investigation into pressure fluctuations for fluidized dense-phase pneumatic transport of fine powders
A. Mittal, S. S. Mallick, P. W. Wypych
Powder Technology, Vol. 277, pp. 163–170, 2015
Citations: 23
On developing improved modelling and scale-up procedures for pneumatic conveying of fine powders
B. Kaur, A. Mittal, P. Wypych, S. S. Mallick, S. Jana
Powder Technology, Vol. 305, pp. 270–278, 2017
Citations: 20
On developing improved modelling for particle velocity and solids friction for fluidized dense-phase pneumatic transport systems
K. Sharma, S. S. Mallick, A. Mittal, R. Pan
Powder Technology, Vol. 332, pp. 41–55, 2018
Citations: 12
An evaluation of testing and modeling procedure for solids friction factor for fluidized dense-phase pneumatic conveying of fine powders
K. Sharma, S. S. Mallick, A. Mittal
Particulate Science and Technology, Vol. 39(1), pp. 62–73, 2021
Citations: 11
A study of energy loss due to particle to particle and wall collisions during fluidized dense-phase pneumatic transport
K. Sharma, S. S. Mallick, A. Mittal
Powder Technology, Vol. 362, pp. 707–716, 2020
Citations: 11