الفهرس 
Waste Heat Recovery& Recycled EnergyOnly 14 pages are availabe for public view
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Abstract
The performances of simple cycle gas turbines depend mainly on variations in the operating conditions in relation to ISO conditions. The performances of the turbines are considerably influenced by the ambient temperature of the inlet air temperature. A variation in the ambient temperature influences the air mass flow, the specific work, the specific fuel consumption, the exhaust temperature and the output power. When the ambient temperature DROPs, the power supplied by the turbine increases. The exhaust gases of these units represent a potential source of heat that is disposed to atmosphere. Recovery of that waste heat by using HRSG to have steam. This steam used as heat source of cogeneration industry or used as power generation as steam turbine and oil industry.
The present project was intended to study the possibilities of turbine waste heat in power generation and cogeneration. Performance data for some gas turbine power plants. Calculation of waste heat in the exhaust gases, and the design of a heat recovery system were carried out.
’Chapter I: represent different types of recovery waste heat for varies prime mover such as diesel generator, gas turbine, furnaces, incinerators.
Chapter Il: includes a definition of the gas turbine operation and performance and variables that affect on the exhaust temperature.
Chapter Ill: includes a complete study on the heat recovery steam generator (HRSG) types, component, heat balance, material selection, and design of each section, overall heat transfer coefficient.
Chapter IV: presents the performance of single pressure heat recovery steam generation with change of exhaust temperature, steam pressure, exhaust flow rate.
Chapter V: presents the case study of three pressure HRSG component and its performance and its design of all components.