Shiv Lal
Dr. Shiv Lal, working as an associate professor at RTU Kota. I did my PhD in Renewable Energy from IIT Delhi. I have more than 20 Year teaching and 2 years industrial experience.
Phone: +91-9636855553
Address: Department of Mechanical Engineering
Rajasthan Technical University Kota, India
Rawatbhata Road Kota-324010
Phone: +91-9636855553
Address: Department of Mechanical Engineering
Rajasthan Technical University Kota, India
Rawatbhata Road Kota-324010
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Papers by Shiv Lal
integrates the Rankine cycle with an ejector and absorption refrigeration cycle, which utilized the low temperature energy source available at the exit of the steam turbine and Heat Recovery Steam Generator
(HRSG) to produce power and cooling simultaneously. The solid waste, rice husk, sugarcane bagasse and apple bagasse biomasses are used in the fluidized bed gasifier. First and second law analysis tools are used in order to assess the performance of the cogeneration energy system. The results find out the effects of some parameters on first and second law efficiencies when operated on both biomass and solar energy. The overall first and second law efficiencies of the system are found to be 42.29% and 39.72% for solid waste ranking 1 amongst all the four biomass materials respectively. A slight gain in the first and second law efficiencies 62.1% and 27.71% was observed after a considerable increase in the value of DNI at different operating conditions. The overall cycle
efficiency is increasing due to cogeneration system and it is economically viable option because solar energy is freely available everywhere.
study of Rajasthan is also carried out to rethink about the
AQI scenario of this state. The policies for reducing the
AQI and increasing the green and cleanliness of India are
also presented.
integrates the Rankine cycle with an ejector and absorption refrigeration cycle, which utilized the low temperature energy source available at the exit of the steam turbine and Heat Recovery Steam Generator
(HRSG) to produce power and cooling simultaneously. The solid waste, rice husk, sugarcane bagasse and apple bagasse biomasses are used in the fluidized bed gasifier. First and second law analysis tools are used in order to assess the performance of the cogeneration energy system. The results find out the effects of some parameters on first and second law efficiencies when operated on both biomass and solar energy. The overall first and second law efficiencies of the system are found to be 42.29% and 39.72% for solid waste ranking 1 amongst all the four biomass materials respectively. A slight gain in the first and second law efficiencies 62.1% and 27.71% was observed after a considerable increase in the value of DNI at different operating conditions. The overall cycle
efficiency is increasing due to cogeneration system and it is economically viable option because solar energy is freely available everywhere.
study of Rajasthan is also carried out to rethink about the
AQI scenario of this state. The policies for reducing the
AQI and increasing the green and cleanliness of India are
also presented.
the conventional resources for power generation, and the kind of environmental pollution caused
by conventional power generation, emphasis is being placed all over the world on tapping green
energy sources namely solar, wind, hydro, bio-mass, geothermal and bio-fuels. The utilization of
renewable energies is not new to the society. In the history of mankind renewable energies have
for a long time been the primary possibility of generating energy. As academic constitutes an
important segment of our society and with the power to influence the society through research
and education, this conference tries to focus the attention by the academia on green energy, and
encourages them to create awareness in the society and get them actively involved in research on
power generation from renewable energy sources.