Heat Transfer Analysis Of Recuperative Air Preheater

Steam Generators Are Very Complex Class Of Pressure Vessels. It Contains Many Accessories For The Generation Of Required Steam Quality. The Prime Motto Of Industrial Steam Generator Is To Generate Steam At Medium Pressure (MP), Low Pressure (LP) Steam At Required Pressure Temperature And Quantity For The Process Industry Like Sugar, Paper, Jute And Chemical Industries. LP And MP Steam After Expansion In The Turbine From Super Saturation Is Utilized By Process Industry. In The Present Work Air Preheater, One Of The Accessories Of The Steam Generator Is Analysed. Air Preheaters Make A Considerable Contribution To The Improved Overall Efficiency Of Fossil-Fuel-Fired Power Plants. In This Study, A Theoretical Design Of Recuperative Primary Air Preheater With In-Line Tube Arrangement And A Combination Of Fluid Dynamics Analysis With Theoretical Value. The Model Enables Heat Transfer Of The Flue-Gas Flow Through The Air Preheater As Well As The Tubular Heat Transfer And The Resulting Temperature Distribution In The Matrix Of The Preheater. The Present Work Is Carried In Mysore Paper Mills (MPM) Bhadravathi, CFD (Computational Fluid Dynamics) Analysis Of Recuperative Air Preheater Is Carried Out Using ANSYS CFX-12.1.The Analysis Of Flue Gas Flow Phenomenon And Air Flow Phenomenon Are Discussed Using Laminar Model, K-? Model, K-O Model And SST Model. The Parameters Like Temperature Distribution, Heat Flux, Pressure Drop, Velocity, Are Also Discussed. An Increase Of 2.7% In Boiler Efficiency Was Found Out With Incorporation Of This Design, Their By An Increase In The Air Inlet Temperature Of About 60? Is Been Observed.