Mohit Bhola
Indian Institutes of Technology
14 Papers
1 Citations
Mohit Bhola is an academic researcher from Indian Institutes of Technology. The author has contributed to research in topics: PID controller & Computer science. The author has an hindex of 3, co-authored 9 publications.
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Papers
Energy saving and Fuzzy-PID position control of electro-hydraulic system by leakage compensation through proportional flow control valve.
TL;DR: In this article, the focus is on the energy efficiency along with the position control of the linear actuator used in heavy earth moving equipment and it is found that hydraulic circuit using PFCV is 8.5% more energy efficient than the conventional Circuit using PDCV.
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A novel approach for the energy recovery and position control of a hybrid hydraulic excavator.
TL;DR: In the projected system, the potential energy is stored as pressure energy in hydro-pneumatic accumulator and the error in the permissible range of 2%.
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Position control and performance analysis of hydraulic system using two pump-controlling strategies:
Gyan Wrat,Prabhat Ranjan,Mohit Bhola,Santosh Kumar Mishra,J. Das +4 more
- 01 Oct 2019
TL;DR: It is found that swash plate control strategy has better dynamic and control performance than the speed control strategy catering same position demand of the linear actuator.
8
Performance enhancement of hybrid hydraulic excavator using multiple hydro-pneumatic accumulators:
Prabhat Ranjan,Mohit Bhola,Gyan Wrat,Santosh Kr. Mishra,J. Das +4 more
- 10 Mar 2020
TL;DR: The linear position control of the boom and the arm actuator in the proposed circuit have been accomplished using proportional–integral–derivative control and pressure-compensated proportional flow control valve and have been achieved with reasonably accuracy.
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A segmental pump-motor control scheme to attain targeted speed under varying load demand of a hydraulic drive used in heavy earth movers
TL;DR: In this article, a control scheme for modulating the displacement of the pump and the hydro-motor of a closed-loop hydraulic drive used in mining equipment is presented, and the experimental results validate the model for various working conditions of the equipment.
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