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Storage Tank Pump Cooler

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  i FINAL YEAR DESIGN PROJECT DESIGN OF ETHYLENE PRODUCTION PLANT GROUP NO 7 SHEET 1 JOB CODE DESIGNER MOHD HAZIQ BIN MOHD GHAZALI (13581) DETAILED DESIGN OF MINOR EQUIPMENT ETHYLENE STORAGE TANK ( T-600) PUMP (P-500) INTEGRATED HEAT EXCHANGER (E-101) COOLER (E-400) DESCRIPTION PREPARED BY REVIEWED BY DATE 01 STORAGE TANK HAZIQ   02 PUMP HAZIQ   03 INTEGRATED HEAT EXCHANGER HAZIQ   04 COOLER HAZIQ   INFORMATION CONTAINED IS OUR PROPERTY AND MUST NOT BE USED OR CONVEYED TO ANY PERSON WITHOUT AUTHORITY  ii Table of Contents LIST OF TABLES  ................................................................................................................................. iv LIST OF FIGURES  ................................................................................. Error! Bookmark not defined.   CHAPTER 1: ETHYLENE STORAGE TANK (T-600)  ........................................................................ 1 1.0 TYPES OF TANKS  ...................................................................................................................... 1 1..1MINIMUM TANK CAPACITY  ................................................................................................... 2 1.2 DIMENSION OF TANK   .............................................................................................................. 2 1.3 MINIMUM SHELL THICKNESS  ............................................................................................... 3 1.4 TORISPHERICAL HEAD  ............................................................................................................ 3 1.5 COST  ............................................................................................................................................ 4 CHAPTER 2: PUMP (P-500)  ................................................................................................................. 5 2.0 INTRODUCTION ......................................................................................................................... 5 2.1 HEAD CALCULATION  .............................................................................................................. 5 2.2 POWER   ......................................................................................................................................... 6 2.3 PUMP EFFICIENCY  .................................................................................................................... 6 2.4 SHAFT POWER   ........................................................................................................................... 7 2.5 NET POSITIVE SUCTION HEAD  .............................................................................................. 7 2.6 BRAKE HORSE POWER, BHP  .................................................................................................. 8 2.7 COST  ............................................................................................................................................ 8 CHAPTER 3: INTEGRATED HEAT EXCHANGER (e-101)  ............................................................ 10 3.0 INTRODUCTION ....................................................................................................................... 10 3.1 TYPE OF HEAT EXCHANGER   ............................................................................................... 10 3.2 DESIGN OF HEAT EXCHANGER   ........................................................................................... 12  iii CHAPTER 4: COOLER (E-400)  .......................................................................................................... 27 4.0 INTRODUCTION ....................................................................................................................... 27 4.1 COOLER SIZING  ....................................................................................................................... 28 4.2 TUBE SIDES  .............................................................................................................................. 31 4.3 SHELL SIDE  .............................................................................................................................. 34 4.4 OVERALL HEAT TRANSFER COEFFICIENT  ....................................................................... 37 4.5 COST  .......................................................................................................................................... 38 CHAPTER 5: REFERENCES  .............................................................................................................. 41  iv Table Number Description Page 1 Summary properties of Feed Stream to Ethylene Storage Tank (extract from HYSYS software) 1 2 SPECIFICATION DATA SHEET (STORAGE TANK) 4 3 Operating Condition (HYSYS) 5 4 SPECIFICATION DATA SHEET (PUMP) 9 5 Hot Stream Properties 12 6 Cold Stream Properties 12 7 Standard Dimension For Tubes Source: (Geankoplis, 2003), (Sinnort, 2005), (Smith, 2005) 17 8 Cost estimation of heat exchanger 24 9 SPECIFICATION DATA SHEET (HEAT EXCHANGER) 26 10 Inlet and Outlet Streams Data for Shell and Tube Sides 28 11 Details of Tube Dimensions 31 12 Details of shell dimension 34 13 Data of heat transfer coefficients 37 14 Estimated Cost 37 15 SPECIFICATION DATA SHEET (COOLER) 39
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