Industrial and Process Furnaces

Chapter 1. Introduction

Abstracts

1.1 What is a Furnace?

1.2 Where are Furnaces Used? Brief Review of Current Furnace Applications and Technology

1.3 Drivers for Improved Efficiency and reduced emissions

1.4 Concluding Remarks

References

Chapter 2. The Combustion Process

Abstracts

2.1 Simple Combustion Chemistry

2.2 Combustion Calculations

2.3 Chemical Reaction Kinetics

2.4 The Physics of Combustion

Nomenclature for Chapter 2

References for Chapter 2

Chapter 3. Fuels for Furnaces

Abstract

3.1 Gaseous Fuels including the gasification of biomass, manufacture and application of hydrogen with types and applications of fuel cells

3.2 Liquid Fuels

3.3 Solid Fuels

3.4 Biomass derived fuels

3.5 Waste Fuels

3.6 Choice of Fuel

3.7 Safety

3.8 Emissions

Nomenclature

References

Fuels Bibliography

Chapter 4. An Introduction to Heat Transfer in Furnaces

Abstract

4.1 Conduction

4.2 Convection

4.3 Radiation

4.4 Electrical Heating

Nomenclature

References

Chapter 5. Flames and Burners for Furnaces

Abstract

5.1 Types of Flame

5.2 Function of a Burner and Basics of Burner Design

5.3 Gas Burners, including burners for hydrogen and mild combustion

5.4 Oil Burners

5.5 Pulverised Coal Burners

5.6 Burners for waste based fuels

5.7 Furnace Aerodynamics

5.8 Combustion System Scaling

5.9 Furnace Noise

Nomenclature for Chapter 5

References for Chapter 5

Chapter 6. Process, Combustion and Heat Transfer Modelling

Abstract

6.1 Physical Modelling

6.2 Mathematical Modelling including process modelling using ASPEN, Matlab, etc including advantages and limitations CFD modelling including latest developments

6.3 Application of Modelling to Furnace Design

Nomenclature

References

Chapter 7. Fuel Handling Systems

Abstract

7.1 Gas Valve Trains

7.2 Fuel Oil Handling Systems

7.3 Pulverised Coal Handling and Firing Systems

7.4 Waste Fuel Handling

Nomenclature

References for Chapter 7

Applicable Codes and Standards

Chapter 8. Furnace Control and Safety

Abstract

8.1 Process Control

8.2 Furnace Instrumentation

8.3 Flue Gas Analysis

8.4 Combustion Control

8.5 Ensuring Furnace Safety

8.6 Burner Management Systems

Nomenclature

References

Certification and Testing Organisations

Chapter 9. Furnace Efficiency

Abstract

9.1 Furnace Performance Charts

9.2 Mass and Energy Balances

9.3 Energy Conversion

9.4 Heat Recovery Equipment

9.5 Identifying Efficiency Improvements

Nomenclature for Chapter 9

References

Chapter 10. Emissions and Environmental Impact

Summary

10.1 Formation of Carbon Monoxide

10.2 Formation of Nitrogen Oxides

10.3 Formation of Sulphur Oxides

10.4 Formation of Intermediate Combustion Products

10.5 Particulate Emissions

10.6 Environmental Control of Emissions including CO2 mitigation and removal

References

Chapter 11. Furnace Construction and Materials

Abstract

11.1 Basic Performance Requirements of the Furnace Structure

11.2 Basic Construction Methods

11.3 Practical Engineering Considerations in the Use of Refractories

11.4 Ceramic Refractory Materials

11.5 Heat Resisting and Refractory metals

11.6 Practical Engineering Considerations in the Use of High Temperature Metals

11.7 Concluding Remarks

References

Selection of Relevant Standards

Advisory Organisations

Appendix 11A

Chapter 12. Furnace Design Methods

Abstract

12.1 Introduction

12.2 Conceptual Design

12.3 Furnace Sizing

12.4 Burner Selection

12.5 Detailed Analysis and Validation of the Furnace Design

12.6 Furnace Instrumentation and Controls

Nomenclature for Chapter 12

References

Chapter 13. Economic Evaluation

Abstract

13.1 Cost Accounting

13.2 Distinction Between Capital and Revenue

13.3 Profit and Profitability

13.4 Financial Ratios

13.5 Project Costing

13.6 Investment Evaluation

13.7 Determining Financial Benefits

13.8 Post Project Analysis

References

Chapter 14. Selected Examples of Real Furnace Applications

Abstract

14.1 Design of a New Burner for a Lime Sludge Kiln

14.2 Optimising Flash Furnace Design

14.3 Contribution to the Design of a New Reforming Process for Fuel Cell Applications

14.4 Resolving Tube Internal Coking and Premature Tube Failure in a Refinery Heater

14.5 Unsuccessful Attempts to Resolve Severe Problems with a Preheater Cement Kiln

14.6 Investigation and Elimination of Coal Firing System Problems

14.7 Concluding Remarks on Implementation

References

Chapter 15. Future Trends and Concluding Remarks

Abstract

15.1 Trends in New Materials

15.2 Trends in Furnace Emissions and Fuels for Furnaces

15.3 Prospects for Alternative Electrical Energy as a Power Source

15.4 Potential role of solar and other renewable forms of energy

15.5 The potential role of hydrogen as a “clean fuel” storing and transporting hydrogen, limitations of hydrogen supply owing to fresh water supply constraints

15.6 The Whyalla Steelworks approach to harnessing solar energy for sustainable steelmaking

15.7 Trends in Furnace Controls

15.8 New Applications for Furnaces

15.9 Concluding Remarks

References