CONSTRUCTION OF HEAT EXCHANGER FABRICATION OF A TUBE AND SHELL HEAT EXCHANGER SYSTEM ABSTRACT There are two methods of constructing heat exchangers: Plate type. Parallel flow-the hot fluid and the coolant flow in the same direction. Counter flow:- The hot fluid and the coolant flow in opposite direction. Cross flow: The hot fluid and the coolant flow at 90 angles (perpendicular) to each other. The four heat exchanger parts identified were. Tube sheet shell Baffles single- pass heat exchangers have fluids that pass each other only once. Multipass that exchangers have fluids that pass each other more than once through the use of a tubes and baffles. Regenerative heat exchangers use the same fluid for heating and cooling. Non-regenerative heat exchangers use separate fluids for heating and cooling process. TABLE OF CONTENTS CHAPTERS 1. INTRODUCTION 2. LITERATURE SURVEY 3. FABRICATION PROCEDURE 4. DISCUSSION 5. CONCLUSION 6. COSTING 7. RECOMMENDATION 8. REFERENCES CHAPTER ONE INTRODUCTION Heat exchanger is a device whose primary purpose is the transfer of energy between fluids. (J.R. Welty and R.E Witson Fundamentals of momentary heat and mass transfer 2nd edition 1975). There are many types of heat exchangers, namely shell-and-tube exchanger, tubular and plate exchangers, the spiral plate heat exchanger etc. In industrial processes, heat energy is transferred by a variety of methods which includes conduction as in electric resistance, waters, conduction as in exchangers, boilers and condensers, radiation as in furnace, radiant heat dryers and by special method such as electric heating. The heat exchanger is a very important unit or system in small scale industries and also in process industries that their design has been highly developed. Designers of heat exchanger must be constantly aware of the difference between the idealized condition for and the real conditions of the mechanical expressions of their design and its environment. The result must satisfy process operational requirements (such as availability flexibility and maintainability) and do so economically. The most common material for heat exchanger is carbon steel. Using the simple shell and tube heat exchanger in explain the process. Hot liquid flows through the tube and cold and more viscous liquid flows through the shell. The two liquids are collected and cooled by the forced convective air which is supplied by the fan. The shell side and tube side heat transfer coefficient are of comparable important and both must be large if a satisfactory overall coefficient is to be attained. The velocity and turbulence of the shell side liquids are as important as those of the tube side flow. The purpose of this project is to constraint an efficient heat exchangers system which on reasonable basic will help in carrying out heat transfer operation in our laborating and in small scale industries. Cost of materials and labour is well as time were considered.
CONSTRUCTION OF HEAT EXCHANGER
FABRICATION OF A TUBE AND SHELL HEAT EXCHANGER SYSTEM
CONSTRUCTION OF HEAT EXCHANGER FABRICATION OF A TUBE AND SHELL HEAT EXCHANGER SYSTEM ABSTRACT There are two methods of constructing heat exchangers: Plate type. Parallel flow-the hot fluid and the coolant flow in the same direction. Counter flow:- The hot fluid and the coolant flow in opposite direction. Cross flow: The hot fluid and the coolant... Continue Reading
ABSTRACT The precise content of this project was to construct a model shell and tube heat exchanger. The material for construction of this project (equipment) and their dimensions are as follows: 1. 500mm length of a tube bundle 2. 20mm diameter of the tube bundle 3. 650mm length of the shell 4. 120mm diameter of the shell 5. 70mm length of the... Continue Reading
ABSTRACT The precise content of this project was to construct a model shell and tube heat exchanger. The material for construction of this project (equipment) and their dimensions are as follows: 1.500mm length of a tube bundle 2.20mm diameter of the tube bundle 3.650mm length of the shell 4.120mm diameter of the shell 5.70mm length... Continue Reading
ABSTRACT The precise content of this project was to construct a model shell and tube heat exchanger. The material for construction of this project (equipment) and their dimensions are as follows: 500mm length of a tube bundle 20mm diameter of the tube bundle 650mm length of the shell 120mm... Continue Reading
INTRODUCTION The most common type of heat exchanger used in industry contains a number of parallel tubes enclosed in a shell and is thus called a shell and tube heat exchanger. These heat exchangers are employed when a process required large quantities of fluid to be heated or cooled. Due to their compact design, these heat exchangers contain a... Continue Reading
INTRODUCTION The most common type of heat exchanger used in industry contains a number of parallel tubes enclosed in a shell and is thus called a shell and tube heat exchanger. These heat exchangers are employed when a process required large quantities of fluid to be heated or cooled. Due to their compact design, these heat exchangers contain... Continue Reading
TABLE OF CONTENT CHAPTER ONE Introduction CHAPTER TWO 2.0 Literature Review 2.0.1 Classification of heat Exchanger 2.0.2 Categories of heat exchangers 2.0.3 Types of heat exchangers 2.0.4 Material for constructions 2.0.5 Tube shape and position 2.0.6 Firing 2.0.7 Heat source 2.0.8 Design... Continue Reading
ABSTRACT The aim of this project was to construct shell and tube heat exchanger with fixed boundless. A heat exchanger that would cool 5 x 5 x 10 – 3 kg/s of steam at a calculated heat load of 152 – 395/S was fabricated. The steam is to reach the heat exchanger from a distillation column at a temperature of 300k. The specification of... Continue Reading
ABSTRACT The aim of this project was to construct shell and tube heat exchanger with fixed boundless. A heat exchanger that would cool 5 x 5 x 10 – 3 kg/s of steam at a calculated heat load of 152 – 395/S was fabricated. The steam is to reach the heat exchanger from a distillation column at a temperature of 300k. The specification of... Continue Reading
ABSTRACT According to the modern or dynamical Theory of heat: Heat a form of energy. The molecules of a substance are in parallel motion. The mean Kinetic energy per molecules of the substance is proportional to its absolute temperature. In description of heat, a molecule may consist of one or two or many atom depending upon the nature of the gas.... Continue Reading