Industrial water tube boiler design : formulas in practice /

This book consists of steps for the thermal & mechanical design of d-type watertube boilers. It provides the reader with guidance for burner, fan size, and capacity selection, furnace thermal and dimensional design, super heater primary thermal and mechanical design, and boiler bank and economiz...

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Bibliographic Details
Main Author: Mousapoor, Mehran (Author)
Format: Electronic eBook
Language:English
Published: Berlin, Germany : Walter de Gruyter GmbH, [2022]
Subjects:
Online Access:Full text (Wentworth users only)
Table of Contents:
  • Frontmatter
  • Contents
  • 1 Introduction
  • 2 Input data
  • 3 Boiler heat duty
  • 4 Required fuel
  • 5 Forced draft fan discharge mass flow
  • 6 FD: Fan outlet duct design
  • 7 FD.Fan outlet duct pressure loss
  • 8 Furnace width and length
  • 9 Furnace height
  • 10 Furnace volume
  • 11 Furnace exit temperature
  • 12 Combustion nonluminous heat transfer coefficient
  • 13 Combustion convection heat transfer coefficient
  • 14 Combustion outside heat transfer coefficient
  • 15 Average tube metal temperature
  • 16 Furnace draft pressure drop
  • 17 Boiler design pressure
  • 18 Superheater package
  • 19 Superheater tube rows and deep number
  • 20 Superheater convective heat transfer coefficient prediction
  • 21 Superheater uncontrolled outlet steam temperature prediction
  • 22 Superheater flue gas draft pressure drop
  • 23 Superheater package total steam pressure drop
  • 24 Steam and mud drum sizing
  • 25 Bank tube average length
  • 26 Bank tube heat duty prediction
  • 27 Bank tube heat surface prediction
  • 28 Steam drum outlet steam temperature
  • 29 Bank tube bundle flue gas draft pressure drop
  • 30 Bank tube duct flue gas draft pressure drop
  • 31 Bank tube total flue gas draft pressure drop
  • 32 Bank tube area length
  • 33 Furnace area length
  • 34 Boiler exit duct flue gas draft pressure drop
  • 35 Bank tube bundle water pressure drop
  • 36 Front and rear wall headers sizing
  • 37 Steam drum to superheater connection header sizing
  • 38 Economizer heat duty prediction
  • 39 Economizer tube rows deep no.
  • 40 Economizer tube arrangement
  • 41 Economizer tube solid or serrated fins
  • 42 Economizer convection heat transfer coefficient
  • 43 Economizer overall heat transfer coefficient
  • 44 Economizer tubes row number
  • 45 Economizer package performance
  • 46 Economizer headers water pressure drop
  • 47 Economizer tube bundle water pressure drops
  • 48 Economizer package water pressure drop
  • 49 Economizer package flue gas draft pressure drops
  • 50 Economizer outlet duct flue gas draft pressure drops
  • 51 Circulation ratio
  • 52 Flue gas stack sizing
  • 53 Flue gas stack net available draft
  • 54 Stack outlet flue gas temperature
  • 55 Stack outlet flue gas velocity
  • 56 Stack insulation thickness
  • 57 Force draft fan electric driver
  • 58 Pressure safety valve sizing
  • 59 Desuperheater water
  • 60 Boiler efficiency
  • 61 Boiler package water weight
  • 62 Boiler package water weight
  • 63 Boiler holdup time (retention time)
  • 64 Steam and mud drum weight
  • 65 Furnace total tube number
  • 66 Boiler total tube number
  • 67 Furnace total tubes weight
  • 68 Front and rear wall header weight
  • 69 Superheater package weight
  • 70 Steam drum to superheater connection header weight
  • 71 Bank tube package weight
  • 72 Economizer package weight
  • 73 Stack weight
  • 74 Reports
  • References
  • Index.