Pump Design And Heat Exchange Design
Pump Design And Heat Exchange Design
Published 5/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 299.41 MB | Duration: 1h 15m
Published 5/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 299.41 MB | Duration: 1h 15m
This Course is for Chemical and Mechanical Engineer (Beginner Level)
What you'll learn
Types of Pump, Pump Capacity
Pumping System & Atmospheric Pressure
The Relationship of Pressure and Head, Pump Performance Curve
NPSH Calculation, Cavitation
Piping Fundamentals, Pump Curve, Terms & Definitions - NPSH & Cavitation
Heat Exchanger Design, Primary Process Function of Heat Exchanger
Codes & Standards and Aim of Heat Exchanger
Why Shell and Tube Heat Exchanger
TEMA class of heat exchanger, TEMA Terminology
Requirements
Basic knowledge of chemical / mechanical engineering
Description
Pump & Heat Exchanger Design for BeginnersThis course is designed for aspiring process engineers and mechanical engineer who want to learn the basics of pump and heat exchanger design in a simple and practical way.1. Understanding PumpsWhat are pumps and why are they important?Different types of pumps and their usesHow to choose the right pump for a processCommon issues with pumps and how to fix them2. Pump Design BasicsKey parts of a pump and how they workHow to calculate pump efficiency and power requirementsSteps to design a pump system3. Understanding Heat ExchangersWhat is a heat exchanger and why is it needed?Types of heat exchangers used in industriesHow heat exchangers transfer heat4. Heat Exchanger Design BasicsChoosing the right heat exchanger for a processImportant calculations for heat transferImproving efficiency and performance of heat exchangers5. Industries Using Pumps & Heat ExchangersThese equipment are widely used in industries such as:Oil & Gas: For fluid transportation, refining, and cooling systems.Chemical Processing: Used for safe transfer and temperature control of chemicals.Power Plants: Vital for cooling systems and steam generation.Food & Beverage: Helps with heating, cooling, and hygienic processing.Pharmaceuticals: Used in drug manufacturing and temperature-sensitive processes.Water Treatment: Essential for wastewater management and clean water supply.Throughout the course, you’ll learn real-world examples and practical tips to help you design pumps and heat exchangers with confidence.Enroll now and start your journey in process equipment design!
Overview
Section 1: Introduction
Lecture 1 Introduction & Course Content
Lecture 2 Types of Pumps
Lecture 3 Basic Information to Select Pump
Lecture 4 Capacity of Pump and What is Pressure
Lecture 5 Brake KW Calculation
Lecture 6 Pumping System & Atmospheric Pressure
Lecture 7 The Relationship of Pressure and Head
Lecture 8 Pump Performance Curve
Lecture 9 NPSHa Calculation
Lecture 10 Cavitation
Lecture 11 Pump Curve
Lecture 12 Terms & Definitions - NPSH & Cavitation
Lecture 13 Important Calculation
Lecture 14 Piping Fundamentals
Lecture 15 Preferred Operating Range
Lecture 16 Pump System Curve
Lecture 17 Uncertainty & Safety Factors
Section 2: Heat Exchanger Overview
Lecture 18 Introduction
Lecture 19 Primary Process Function of Heat Exchanger
Lecture 20 Codes & Standards and Aim of Heat Exchanger
Lecture 21 Why Shell and Tube Heat Exchanger
Lecture 22 TEMA class of Heat Exchanger
Lecture 23 TEMA Terminology
Lecture 24 Selection Consideration
Lecture 25 What is GEOMETRY
Mechanical Engineer,Chemical Engineer