Organization

Start Date

End Date

Designation

Nature of Work

Name of the Student

Topic

Year of Award

Co-Supervisor (if any)

Title

Sponsoring Agency

Duration

Amount

Co-PI (if any)

Title

Sponsoring Agency

Duration

Amount

Co-Investigator                       (if any)

Authors

Title

VOL. NO.,

PAGE NO

YEAR

SCI/

Scopus

IMPACT FACTOR

Kumar, V. D., Singh, G., Chandra, L., Mukhopadhyay, S., and Shekhar, R.

A Multi-Zone Unsteady Heat Transfer Model for an Open Volumetric Air Receiver: A Step Towards Scale-Up and Design Optimization.

International Journal of Heat and Mass Transfer

191, 122747

2022

SCI

5.2

Kumar, V. D., Upadhyay, V. K., Singh, G., Mukhopadhyay, S., and Chandra, L.

Open volumetric air receiver: An innovative application and a major challenge.

Wiley Interdisciplinary Reviews: Energy and Environment

11(1), e404

2021

SCI

6.1

Agarwal, A., Singh, G., & Prakash, A.

Effect of baffles on the flow hydrodynamics of dual-Rushton turbine stirred tank bioreactor—a CFD study

Brazilian Journal of Chemical Engineering

38, 849-863

2021

SCI

1.2

Singh, G., Kumar, V., Chandra, L., Shekhar, R., and Ghoshdastidar, P.S.

One-dimensional zonal model for the unsteady heat transfer analysis in an open volumetric air receiver.

Journal of Thermal Science and Engineering Applications – ASME

13(1): 011011

2021

SCI

2.1

Upadhyay, V.K., Singh, G., Chandra, L., Bandyopadhyay, B.

On the Dust Deposition and its effects on heat transfer in absorber pore of an open volumetric air receiver.

Solar Energy

211, 1206-1213.

2020

SCI

6.7

Boddupalli, N., Singh, G., Chandra, L., and Bandyopadhyay, B.

Reprint of: Dealing with dust–Some challenges and solutions for enabling solar energy in desert regions.

Solar Energy

154, 134-143

2017

SCI

6.7

Singh, G., Saini, D., and Chandra, L.

On the evaluation of a cyclone separator for cleaning of open volumetric air receiver.

Applied Thermal Engineering

97, 48-58

2016

SCI

6.4

Singh, G., Saini, D., Yadav, N., Sarma, R., Chandra, L., and Shekhar, R.

Dust deposition mechanism and cleaning strategy for open volumetric air receiver based solar tower sub-systems.

Energy Procedia

69, 2081-2089

2015

Scopus

-

Singh, G., and Chandra, L.

On the flow stability in a circular cylinder based open volumetric air receiver for solar convective furnace.

Energy Procedia

144, 88-94

2018

Scopus

-

Agarwal, A., Singh, G., & Prakash, A.

Numerical investigation of flow behavior in double-rushton turbine stirred tank bioreactor.

Materials Today: Proceedings

43, 51-57

2021

Scopus

-

Singh, G., and Chandra, L.

Detrimental Effects of Dust Deposition in Pores of an Open Volumetric Air Receiver.

ISES Conference Proceedings

doi:10.18086/swc.2017.04.14

2017

-

-

Singh, G., Kumar, V., Chandra, L., Shekhar, R., & Ghoshdastidar, P. S.

Development of a one-dimensional zonal model for the evaluation of an open volumetric air receiver.

Begel House Inc.

563-568. doi: 10.1615/IHMTC-2019.950

2019

-

-

Singh, G., Luque, S., González-Aguilar, J. Romero, M., and Chandra, L.

Open Volumetric Air Receiver: Current Status, Challenges and Innovative Solutions.

Encyclopedia of Renewable and Sustainable Materials, Elsevier

vol. 1, pp. 586–599

2020

-

-

Singh, G., Kumar, R., Dixit, A., and Chandra, L.

Thermal and materials perspective on the design of open volumetric air receiver for process heat applications.

Applications of Solar Energy, Springer

pp. 113-127

2018

-

-

Singh, G., Saini, D., Chandra, L., and Shekhar, R.

Design of a cyclone separator for cleaning of dust from volumetric air receiver.

Fluid Mechanics and Fluid Power–Contemporary Research, Springer

pp. 83-93

2017

-

-

Title

Year

Agency

Co-Investigator(if any)

Published/Granted