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CONSTRUCTION OF HEAT EXCHANGER FABRICATION OF A TUBE AND SHELL HEAT EXCHANGER SYSTEM

Format: MS WORD  |  Chapter: 1-5  |  Pages: 57  |  1374 Users found this project useful  |  Price NGN5,000

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CONSTRUCTION OF HEAT EXCHANGER FABRICATION OF A TUBE AND SHELL HEAT EXCHANGER SYSTEM

 

ABSTRACT

A Heat Exchanger is a equipment used for transferring heat from one medium to another. There is a wide application of coiled heat exchanger in the field of cryogenics and other industrial applications for its enhanced heat transfer characteristics and compact structure. Lots of research are going on to improve the heat transfer rate of the heat exchanger. Here, I have fabricated the shell and tube heat exchanger with selecting the materials on the primary objective of enhancing the heat transfer effectiveness. I casted the tube in the spiral shape with the helical angle of 30˚.Then we intended to perform calculation on the heat transfer effectiveness. This project intends to show the merits of spiral coiled heat exchanger to that of the conventional parallel type of heat exchangers.

 

CHAPTER ONE

INTRODUCTION

1.1 Background of the Study

Heat exchangers play a critical role in numerous industrial applications, enabling the efficient transfer of heat between two or more fluids. Among the various types of heat exchangers, the tube and shell heat exchanger system is widely utilized due to its versatility and effectiveness in handling large volumes and a wide range of temperatures and pressures. The construction and fabrication of tube and shell heat exchangers involve complex engineering processes that require precise design, material selection, and manufacturing techniques. These systems are essential in industries such as power generation, chemical processing, petrochemical, and HVAC (heating, ventilation, and air conditioning). Understanding the principles and processes involved in constructing these systems is crucial for optimizing their performance and ensuring their reliability and longevity.

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 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.

1.2 Statement of the Problem

Despite the widespread use and importance of tube and shell heat exchangers, challenges persist in their construction and fabrication. Issues such as material corrosion, thermal stresses, and inefficient heat transfer can significantly impact the performance and durability of these systems. Furthermore, the lack of standardized guidelines and innovative fabrication techniques often leads to suboptimal designs and increased operational costs. Addressing these problems requires a comprehensive study to evaluate current practices, identify potential improvements, and develop robust solutions to enhance the efficiency and reliability of tube and shell heat exchanger systems.

1.3 Objectives of the Study

The main objective of this study is to determine the optimal construction and fabrication techniques for tube and shell heat exchanger systems. Specific objectives include:

i. To evaluate the impact of material selection on the efficiency and durability of tube and shell heat exchanger systems.

ii. To determine the effects of thermal stresses on the performance and lifespan of these systems.

iii. To find out innovative fabrication techniques that can improve the overall efficiency and reduce the operational costs of tube and shell heat exchanger systems.

1.4 Research Questions

i. What is the impact of material selection on the efficiency and durability of tube and shell heat exchanger systems?

ii. What are the effects of thermal stresses on the performance and lifespan of these systems?

iii. How do innovative fabrication techniques improve the overall efficiency and reduce the operational costs of tube and shell heat exchanger systems?

1.5 Significance of the Study

This study is significant as it aims to enhance the understanding of the construction and fabrication processes of tube and shell heat exchangers, which are crucial components in many industrial applications. By identifying optimal materials and innovative fabrication techniques, the study can contribute to improving the efficiency, durability, and cost-effectiveness of these systems. The findings of this research could benefit engineers, manufacturers, and industries that rely on heat exchangers, leading to more reliable and efficient operations, reduced maintenance costs, and extended system lifespans.

1.6 Scope of the Study

The scope of this study encompasses the design, construction, and fabrication of tube and shell heat exchanger systems. It includes an evaluation of different materials used in the construction of these systems, analysis of thermal stresses and their impact on performance, and exploration of innovative fabrication techniques. The study will focus on both theoretical and practical aspects, including case studies from various industries to provide a comprehensive understanding of the subject matter.

1.7 Limitations of the Study

The study is limited by several factors, including the availability of resources and data related to the construction and performance of tube and shell heat exchangers. Additionally, the research may be constrained by the variability in manufacturing practices and the specific conditions of different industrial applications. Time constraints and the scope of available literature may also limit the depth of the analysis. Despite these limitations, the study aims to provide valuable insights and recommendations for improving the construction and fabrication of tube and shell heat exchanger systems.

1.8 Definition of Terms

Heat Exchanger: A device that transfers heat between two or more fluids without mixing them.

Tube and Shell Heat Exchanger: A type of heat exchanger that consists of a series of tubes, one set carrying the hot fluid and the other the cold fluid, enclosed within a cylindrical shell.

Thermal Stresses: Stresses induced in a material due to changes in temperature, which can cause deformation or damage.

Fabrication Techniques: Methods and processes used in the construction and assembly of components and systems.

Material Selection: The process of choosing appropriate materials for construction based on factors such as durability, thermal conductivity, and resistance to corrosion.

Efficiency: The ability of the heat exchanger to transfer heat effectively with minimal energy loss.

Durability: The capability of the heat exchanger to withstand operational stresses and environmental conditions over time.

Innovative Fabrication Techniques: New and improved methods for constructing and assembling heat exchangers that enhance their performance and reduce costs.

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CONSTRUCTION OF HEAT EXCHANGER FABRICATION OF A TUBE AND SHELL HEAT EXCHANGER SYSTEM

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