This document provides an overview of main equipment in a desalination plant, including evaporators, brine heaters, and deaerators. It discusses the manufacturing process and transportation of evaporators specifically. The key points are:
1) It describes the main equipment in a desalination plant and their purposes, focusing on evaporators, brine heaters, and deaerators.
2) It explains the manufacturing process for evaporators, including bundle assembly, testing, and the advantages of one-module manufacturing.
3) It outlines the transportation process for large evaporator modules by ship, including loading, securing, and routing to the installation site.
2. 1. Understand the kinds and principle of main equipment
2. Understand the manufacturing process and transportation of the Evaporator
1. Understand the kinds and principle of main equipment
2. Understand the manufacturing process and transportation of the Evaporator
The aim of the Presentation
Ⅰ. The kinds and structure of the main equipment
Ⅱ. Manufacturing process of the Evaporator
Ⅲ. Transportation of the main equipment
Ⅰ. The kinds and structure of the main equipment
Ⅱ. Manufacturing process of the Evaporator
Ⅲ. Transportation of the main equipment
Contents
3. ▣▣ EQUIPMENT OF THE DESALINATION PLANTEQUIPMENT OF THE DESALINATION PLANT
- Main equipment : equipment to make water directly
- Subsidiary equipment : equipment to keep the quality of the equipment
and to help making water efficiently
Evaporator
Deaerator
Brine Heater
4. ① Evaporator
Power Plant
Desalination Plant
(MSF)
Storage Tank
①
②
④
② Brine Heater
Subsidiary
Equipment
③ Seawater Screening
Equipment
④ Remineralization
Equipment
③
▣▣ COMPOSITION OF THECOMPOSITION OF THE
FACILITIESFACILITIES Main Equipment
Process to make waterProcess to make water
5. Equipment that produces fresh
water from heated brine through
continuous evaporation and
condensation.
①① EvaporatorEvaporator
②
Equipment that heats the
brine using boiler steam.
②② Brine HeaterBrine Heater
Equipment that removes dissolved
carbon dioxide and oxygen which
are included in the seawater. That
is, Deaerator is used to prevent
the corrosion of evaporator.
③
③③ DeaeratorDeaerator
①
Steam inlet
Brine inlet
heated Brine inlet
②
③
Seawater
inlet
▣▣ Kinds of Main EquipmentKinds of Main Equipment
6. Steam
Distillate
Sea water
Sea water
▣▣ Principle of the EvaporatorPrinciple of the Evaporator
Flow of the Evaporator insideFlow of the Evaporator inside
Cross Section of the Evaporator insideCross Section of the Evaporator inside
110 ℃ 105 ℃ 100 ℃ 95 ℃ 42 ℃
35 ℃
118 ℃
Tube Demister
Distillate
Brine Side Wall
10. Tube
Producing distillate from
brine through heat
exchange
Tube
Producing distillate from
brine through heat
exchange
Distillate Trough
Trough to gather
condensed distillate inside
stage
Distillate Trough
Trough to gather
condensed distillate inside
stage
Tube Support Plate
Plate to support tubes and
to prevent vibration
Tube Support Plate
Plate to support tubes and
to prevent vibration
Weir Gate
Gate to control pressure
difference between stages and
flow rate of the brine
Weir Gate
Gate to control pressure
difference between stages and
flow rate of the brine
TubeTube
Waterbo
x
Waterbo
x
Tube
Support
plate
Tube
Support
plate
Distillate
Trough
Distillate
Trough
Pass
Patition Wall
Pass
Patition Wall
▣▣ Structure of the EvaporatorStructure of the Evaporator
11. ▣▣ Structure of the Brine HeaterStructure of the Brine Heater
Impingement Plate
plate to protect tubes
from high pressure and
full speed steam and to
distribute steam evenly
Impingement Plate
plate to protect tubes
from high pressure and
full speed steam and to
distribute steam evenly
Tube Support Plate
Plate to prevent Tube
vibration and to
support tube
Tube Support Plate
Plate to prevent Tube
vibration and to
support tube
Tube
Body to exchange heat
Tube
Body to exchange heat
Tube sheet
Plate to fix tubes
Tube sheet
Plate to fix tubes
Steam
inlet
Condensate
Outlet Brine
inlet
Brine Outlet
12. ▣▣Structure of the DeaeratorStructure of the Deaerator
① Seawater Flow
② Stripping Steam Flow
③ Non-Condensable Gas
Packing Zone
Pall Ring loading space
* Pall Ring : make contact
area of sea water larger
Packing Zone
Pall Ring loading space
* Pall Ring : make contact
area of sea water larger
14. Outline of Evaporator Manufacturing ProcedureOutline of Evaporator Manufacturing Procedure
▣▣ Evaporator Manufacturing procedureEvaporator Manufacturing procedure
15. One-Module Manufacturing
Method
Block Manufacturing
Method
One-Module Manufacturing Method is to ship Eva. with complete
assembling condition after manufacturing and assembling each bundle in
the shop.
Keep quality of the Evaporator and prevent problems from taking to the
pieces and assembling in the site.
Reduce construction time over 5 months and decrease amount of work in
the site
Divide the Evaporator into 2~4 blocks after manufacturing each bundle in
the shop.
Amount of work increases unless we use one-module manufacturing
method in the site
Make use of overseas manufacturing companies in the site
Distinctive manufacturing process of Doosan’s EvaporatorsDistinctive manufacturing process of Doosan’s Evaporators
22. Fujairah
ChangwonTransportation Route Korea / Fujairah : 5,900 Miles
at 7.5 KNOT : 32.8 Days
8.0 KNOT : 30.7 Days
COLOMBO
(20 Miles)
BOMBAY
(96 Miles)
SINGAPORE
(8 Miles)
: SHELTERING PORT
Marine Transport RouteMarine Transport Route