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Файл:Пинч / PinchIntro.pdf
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- •1.1 What this chapter contains
- •1.2 What is Pinch Technology?
- •1.3 From Flowsheet to Pinch Data
- •1.3.1 Data Extraction Flowsheet
- •Thermal Data
- •1.4 Energy Targets
- •1.4.1 Construction of Composite Curves
- •1.4.2 Determining the Energy Targets
- •1.4.4 The Pinch Principle
- •1.5 Targeting for Multiple Utilities
- •1.5.1 The Grand Composite Curve
- •1.5.2 Multiple Utility Targeting with the Grand Composite Curve
- •1.6 Exergy Analysis
- •1.6.1 Carnot factor calculations
- •1.6.2 Constructing an exergy balance
- •1.7 Capital - Energy Trade-offs
- •1.7.1 New Designs
- •Setting Area Targets
- •Setting Minimum Number of Units Target
- •Determining the Capital Cost Target
- •1.7.2 Retrofit
- •Retrofit Targeting based on Capital-energy trade-off
- •Maintaining Area Efficiency
- •Payback
- •Retrofit targeting based on DTmin - Energy curves
- •DTmin Calculation in PinchExpress and PROCESS
- •Retrofit targeting based on experience DTmin values
- •Typical DTmin values for various types of processes
- •Typical DTmin values used for matching utility levels against process streams
- •Typical DTmin values used in retrofit targeting of various refinery processes
- •1.8 Process Modifications
- •1.8.1 The plus-minus principle for process modifications
- •1.8.2 Distillation Columns
- •Stand-alone column modifications
- •Column integration
- •1.9 Placement of Heat Engines and Heat Pumps
- •1.9.1 Appropriate integration of heat engines
- •Identifying opportunities for heat engine placement
- •1.9.2 Appropriate integration of heat pumps
- •Identifying opportunities for heat pump placement
- •1.10.1 The Difference Between Streams and Branches
- •1.10.2 The Grid Diagram for heat exchanger network representation
- •1.10.4 The New Design Method
- •Design Above The Pinch
- •Design Below The Pinch
- •Completed Minimum Energy Requirement Design
- •Stream splitting in network design
- •Network evolution: Heat load loops and heat load paths
- •Network design for multiple utilities
- •Summary: New heat exchanger network design
- •1.10.5 Heat Exchanger Network Design for Retrofits
- •Pinch Design Method with maximum re-use of existing exchangers
- •Correcting Cross-Pinch Exchangers
- •Use cross-pinch analysis to find a promising project in the current network
- •Use the Grid Diagram to design the project
- •Other steps
- •Analysis of Exchanger Paths
- •Retrofit example
- •1.11.1 Do not carry over features of the existing solution
- •1.11.2 Do not mix streams at different temperatures
- •1.11.3 Extract at effective temperatures
- •1.11.4 Extract streams on the safe side
- •1.11.5 Do not extract true utility streams
- •1.11.6 Identify soft data
- •1.12.1 Total site data extraction
- •Constructing Total Site Profiles
- •Adding steam users not accounted in process stream data
- •1.12.2 Total site analysis
- •Setting total site targets
- •Case study - Total site analysis
- •1.12.3 Selection of options: Total Site Road Map
- •Summary: Total Site Improvement
- •1.15 Index
Chapter 1 |
Pinch Technology |
71 |
1.15 Index
A
Appropriate 29, 30, 31, 67
Area Target 15, 16, 18
C
Capital Cost 16, 19
Column 25, 28
D
Data extraction 4, 24, 51, 52, 53, 55, 56
Design 15, 17, 32, 34, 36, 38, 39, 42, 43, 46
DTmin 14, 20, 22, 23
E
Energy Target 6, 7, 9, 10, 11, 67
Exergy 13, 14
L
Loops and Paths 40, 47
R
Refernces 65
Retrofit 17, 20, 21, 48
S
Site 57, 58, 59, 60, 61, 63, 70
Stream 33, 67, 69
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Pinch Technology Introduction |
Pinch Technology • 71 |
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