S.N. Hossain scite author profile

Heat available in the exhaust gas of a diesel engine can be an important heat source to provide additional power using separate Rankine Cycle (RC). In this current work, experiments were conducted to measure the available exhaust heat from a 40 kW diesel engine generator set. Performance of an available shell and tube heat exchanger using water as the working fluid was conducted. With the available experimental data, computer simulation was carried out to optimize the design of the heat exchanger. This optimized heat exchanger was then used to estimate additional power considering actual turbine efficiency. Two heat exchangers were used for this purpose. One is used to generate vapour and the other to generate super-heated vapour. Two organic fluids namely Ammonia and HFC-134a were used in this study. The water was also used as working fluid to compare the results. The proposed heat exchanger can produce 10%, 9% and 8% additional power by using water, ammonia and HFC134a as the working fluids respectively.

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In-Cylinder Air Flow Characteristics Generated by Guide Vane Swirl and Tumble Device to Improve Air-Fuel Mixing in Diesel Engine Using Biodiesel

Saad

Bari

Hossain

2013

Procedia Engineering

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S.N. Hossain

Waste heat recovery from a diesel engine using shell and tube heat exchanger

Performance and emission analysis of a diesel engine running on palm oil diesel (POD)

Waste heat recovery from the exhaust of a diesel generator using Rankine Cycle

Waste Heat Recovery from Exhaust of a Diesel Generator Set Using Organic Fluids

In-Cylinder Air Flow Characteristics Generated by Guide Vane Swirl and Tumble Device to Improve Air-Fuel Mixing in Diesel Engine Using Biodiesel

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