
Mod01 Lec01 Process integration, methods and area of application

Mod02 Lec01 Fundamental concepts related to heat integrationPart01

Mod02 Lec02 Fundamental concepts related to heat integrationPart02

Mod03 Lec01 Data extraction

Mod03 Lec02 Hot composite curves

Mod03 Lec03 Cold composite curves

Mod03 Lec04 Hot and cold composite curves and the pinch

Mod03 Lec05 Threshold problems

Mod03 Lec05 Threshold problems

Mod04 Lec02 Energy targeting procedure

Mod04 Lec03 Grand composite curve

Mod04 Lec04 Problem table algorithm 2 nd part

Mod04 Lec05 Number of units target

Mod04 Lec06 Shell targeting 1 st part

Mod04 Lec07 Area targeting 1 st part

Mod04 Lec08 Area targeting 2 nd part

Mod04 Lec09 Coast targeting Part 01

Mod04 Lec10 Coast targeting Part 02

Mod04 Lec11 Supertargeting optimization of Δ t min

Mod04 Lec12 Global & stream specific Δt min and its relevance

Mod04 Lec13 Topology Trap

Mod05 Lec01 Rules for Pinch Design Method (PDM)1st Part

Mod05 Lec02 Rules for Pinch Design Method (PDM)2nd Part

Mod05 Lec03 Application of PDM for MER Hen Synthesis

Mod05 Lec04 Design for threshold problems

Mod05 Lec05 Design for single pinch problems

Mod05 Lec06 Design for multi pinch problems

Mod05 Lec07 HEN optimization

Mod05 Lec08 Remaining problem analysis

Mod05 Lec09 Driving Force Plot

Mod05 Lec10 Low Temperature process Design Part 01

Mod05 Lec11 Low Temperature process Design Part 02

Mod05 Lec12 Integration of Gas turbine with process 1 st Part

Mod05 Lec13 Integration of Gas turbine with process 2 nd Part

Mod06 Lec01 Placement and Integration of Distillation Column

Mod06 Lec02 Heat Integration of evaporators

Mod06 Lec03 Integration of heat pump

Mod06 Lec04 Placement of Heat Engine, Heat pump and Reactors

Mod06 Lec05 Integration of Furnace

Mod07 Lec01 Problem solving using HINT Software Part 01

Mod07 Lec02 Problem solving using HINT Software Part 02

Mod07 Lec03 Problem solving using HINT Software Part 03

Mod07 Lec04 Problem solving using HINT Software Part 04