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The Complete Book on Industrial Gases (Acetylene, Argon, Butane, Butene, Carbon Dioxide, Carbon Monoxide, Ethane, Ethene, Helium, Hydrogen Chloride, Hydrogen, Krypton, Liquefied Natural Gas (LNG), Methane, Neon, Nitrogen, Nitrogen Trifluoride Gas, Nitrous Oxide, Oxygen, Ozone, Propane, Propene, Refrigerant Gases, Sulphur Dioxide Gas, Sulphur Hexafluoride Gas, Xenon, Gas Mixtures with Machinery Equipment Details and Factory Layout) ( ) ( Best Seller ) ( ) ( ) ( )
Author P. K. Chattopadhyay ISBN 9788195830473
Code ENI361 Format Paperback/PDF File
Price: Rs 2495   2495 US$ 63   63
Pages: 544 Published 2023
Publisher Niir Project Consultancy Services
Usually Ships within 5 days

Industrial gases are gases that are produced for use in industrial processes. These gases are used in a wide range of industries, including manufacturing, healthcare, electronics, food and beverage, and many more. They are utilized in different forms, such as pure gases, gas mixtures, and liquid gases, depending on the specific application. Industrial gases can be classified into several categories based on their properties and applications. One of the most common types is atmospheric gases, which are gases that exist naturally in the Earth's atmosphere. This category includes gases such as nitrogen, oxygen, and argon, which are widely used in various industries.

The global industrial gases market size was valued at USD 99.99 billion and is expected to grow at a compound annual growth rate (CAGR) of 7.42%. The growing demand for industrial gases from food & beverages, electronics, and healthcare sectors is driving the global market growth. There are untapped opportunities for market players operating in the industrial gases market due to surging demand for industrial gases in emergency medical conditions. Moreover, due to the rapid spread of manufacturing and processing industries across the globe, market players are expected to invest towards production expansion to expand the market share, hence providing growth opportunities in the upcoming years. Steel, glass, oil, and fiber optics segments demand intensive usage of industrial gases. Growth and advancement in these sectors in developing countries is contributing to the rapid expansion of the industrial gases market.

This book is dedicated to the Gases Industry, the details of gases properties, methods and applications are given. The book sheds light on the materials required for the same and the various processes involved. This popular book has been organized to provide readers with a firmer grasp of how gas technologies are revolutionizing the industry.

The major content of the book are Acetylene, Ammonia, Argon, Butane, Butene, Carbon Dioxide, Carbon Monoxide, Ethane, Ethene, Helium, Hydrogen Chloride, Hydrogen, Krypton, Liquefied Natural Gas (LNG), Methane, Neon, Nitrogen, Nitrogen Trifluoride Gas, Nitrous Oxide, Oxygen, Ozone, Propane, Propene, Refrigerant Gases, Sulphur Dioxide Gas, Sulphur Hexafluoride Gas, Xenon, Gas Mixtures (Breathing, Forming, Penning, Shielding) photographs of machinery with suppliers contact details.

A total guide to manufacturing and entrepreneurial success in one of today's most Industrial Gases industry. This book is a one-stop guide to one of the fastest growing sectors of the Industrial Gases industry, where opportunities abound for manufacturers, retailers, and entrepreneurs. This is the only complete book on the commercial production of Industrial Gases. It serves up a feast of how-to information, from concept to purchasing equipment.

 

1.    Introduction

        1.1        History of Gases

        1.2        Application and Use of Gases

        1.3        Major Industrial Gases

        1.4        How Industrial Gases are Used to Innovate in Manufacturing

                     1.4.1       Automotive Industry

                     1.4.2       Food Processing

                     1.4.3       Manufacturing

                     1.4.4       Semiconductors

                     1.4.5       Steel Manufacturing and Metal Fabrication

        1.5        Gas Production Technology

        1.6        Gas Distribution

                     1.6.1       Mode of Gas Supply

                     1.6.2       Gas Delivery

        1.7        Industrial Gas Market

2.    Air Gases Separation

        2.1        Introduction

        2.2        Gas Plant Building Blocks

        2.3        Compressors

        2.4        Thermal Transfer in Gases: Heat Exchangers

        2.5        Distillation of Air

        2.6        Pressure-Swing Absorption

        2.7        Membrane Separation of Gases

3.    Handling and Transportation of Gases

        3.1        Understanding Industrial Gases

        3.2        Handling Precautions

        3.3        Transporting Industrial Gases

        3.4        Emergency Response

        3.5        Legal and Regulatory Compliance

        3.6        References

        3.7        Best Practices for Specific Gases

        3.8        Leak Detection and Mitigation

        3.9        Cylinder Maintenance and Inspection

        3.10     Special Considerations for International
Transportation

        3.11     End of Life - Cylinder Disposal

        3.12     Glossary

        3.13     Hazard Communication

        3.14     Special Handling Equipment

        3.15     Safety in Extreme Conditions

        3.16     Transporting Multiple Gas Types

        3.17     Training Refreshers and Updates

        3.18     Risk Assessment

        3.19     Technology in Gas Handling and Transport

        3.20     Conclusion

4.    Gas Safety Measures and Equipment

        4.1        Understanding Gas Hazards

        4.2        Safety Measures

                     4.2.1       Procedural Safety Measures

                     4.2.2       Operational Safety Measures

        4.3        Safety Equipment

                     4.3.1       Personal Protective Equipment (PPE)

                     4.3.2       Gas Detectors

                     4.3.3       Firefighting Equipment

                     4.3.4       Gas Cylinder Equipment

        4.4        Advanced Safety Equipment

                     4.4.1       Automated Monitoring Systems

                     4.4.2       Smart PPE

                     4.4.3       Robotics and Drones

        4.5        Incorporating Safety Culture

        4.6        Regulatory Compliance

        4.7        Conclusion

5.    How to Start Manufacturing Unit of Industrial
Gases

        5.1        Detailed Business Plan

        5.2        Identify the Type of Industrial Gas to
Manufacture

        5.3        Licenses and Permits

        5.4        Location

        5.5        Purchase Necessary Equipment

        5.6        Build Your Facility

        5.7        Hiring Staff

        5.8        Safety Measures

        5.9        Quality Control

        5.10     Marketing and Sales

        5.11     Production and Operation Management

        5.12     Distribution Strategy

        5.13     Customer Service

        5.14     Business Expansion

        5.15     Sustainability and Environmental
Responsibility

        5.16     Regular Audits and Reviews

        5.17     Innovation and Technology

        5.18     Risk Management

        5.19     Regulatory Compliance

        5.20     Continuous Improvement

6.    Industrial Gas Purification Considerations

        6.1        Physical Gas Separation

                     6.1.1       Membrane Separation

                     6.1.2       Pressure-Swing Adsorption

                     6.1.3       Cryogenic Distillation

        6.2        H2 and He Generation

        6.3        Gas Storage

        6.4        Gas Purification Media

        6.5        Capacity and Efficiency

        6.6        Impurity Concentrations

7.    The Laws of Gases

        7.1        Gas Laws

        7.2        Boyle’s Law

        7.3        Charle’s Law

        7.4        Gay-Lussac Law

        7.5        Avogadro’s Law

        7.6        Combined Gas Law

        7.7        Ideal Gas Law

        7.8        Ideal Gas

        7.9        Ideal Gas Properties and Characteristics

        7.10     Application of Gas Law

8.    How Valves are Made and Used in Gas Industry

        8.1        Applications

        8.2        Variation

        8.3        Valve Aperating Positions

                     8.3.1       Two-Port Valves

                     8.3.2       Three-Port Valves

                     8.3.3       Four-Port Valves

        8.4        Types of Gas Valves

                     8.4.1       Gate Valves

                     8.4.2       Globe Valves

                     8.4.3       Check Valves

                     8.4.4       Plug Valves

                     8.4.5       Ball Valves

                     8.4.6       Butterfly Valves

                     8.4.7       Slam-Shut Valves

        8.5        Components of Valve

                     8.5.1       Body

                     8.5.2       Bonnet

                     8.5.3       Ports

                     8.5.4       Actuator

                     8.5.5       Disc

                     8.5.6       Seat

                     8.5.7       Stem

                     8.5.8       Spring

                     8.5.9       Trim

        8.6        The Requirements for Operating Various Valves

                     8.6.1       Temperature

                     8.6.2       Pressure

                     8.6.3       Pressure Relief

                     8.6.4       Corrosive Conditions

        8.7        Resources Used in Construction

        8.8        Valve Manufacturing

                     8.8.1       Cast Method

                     8.8.2       Forged Method

        8.9        Valve Assembly Phase

        8.10     Pressure Test

        8.11     Inspection and Quality Control

9.    Oxygen Gas Manufacturing Process

        9.1        Industrial Benefits of Oxygen Gas

        9.2        Other Uses of Oxygen Gas

        9.3        Medical Oxygen

        9.4        The Manufacturing Process

                     9.4.1       Pretreating

                     9.4.2       Separating

                     9.4.3       Purifying

                     9.4.4       Distributing

                     9.4.5       Quality Control

10.  Hydrogen Gas

        10.1     Introduction

        10.2     Properties

                     10.2.1     Combustion

        10.3     Hydrogen Applications

        10.4     Hydrogen Production Process

                     10.4.1     Hydrogen Production from Fossil Fuels

                     10.4.2     Hydrogen Production from Renewable Resources

11.  Carbon Dioxide Gas Generation

        11.1     Increased Concentration of Carbon Dioxide

        11.2     Carbon Dioxide as a Greenhouse Gas

        11.3     Properties of Carbon Dioxide

        11.4     Carbon Dioxide Uses

                     11.4.1     Carbonation

                     11.4.2     Food and Beverage Industry

                     11.4.3     Fire Suppression

                     11.4.4     Welding and Metal Fabrication

                     11.4.5     Oil and Gas Industry

                     11.4.6     Chemical Processes

                     11.4.7     pH Control

        11.5     Harmful Effects of Carbon Dioxide

        11.6     Manufacturing Process

                     11.6.1     Source Identification

                     11.6.2     Extraction or Generation

                     11.6.3     Purification and Refinement

                     11.6.4     Storage and Distribution

                     11.6.5     Utilization

        11.7     Carbon Dioxide Capture

                     11.7.1     Postconversion Capture

                     11.7.2     Preconversion Capture

                     11.7.3     Oxy-Fuel Combustion Capture

        11.8     Carbon Dioxide Storage

12.  Nitrogen Gas

        12.1     Chemical Properties

        12.2     Industrial Applications of Nitrogen

                     12.2.1     Food Packaging

                     12.2.2     Chemical Blanketing

                     12.2.3     Electronics

                     12.2.4     Laboratory

                     12.2.5     Laser Cutting

                     12.2.6     Beer Manufacturing

        12.3     Use of Nitrogen in the Oil and Gas Industry

                     12.3.1     Nitrogen Injection in Oil and Gas Wells

                     12.3.2     Pipeline Drying

                     12.3.3     Nitrogen Purging

                     12.3.4     Pressure Testing

                     12.3.5     Nitrogen Blanketing

        12.4     Common Types of Nitrogen Gas Production

                     12.4.1     Pressure Swing Adsorption (PSA) Nitrogen Production

                     12.4.2     Membrane Nitrogen Production

                     12.4.3     Fractional Distillation Nitrogen Production

        12.5     Production Process

                     12.5.1     Purification

                     12.5.2     Refrigeration

                     12.5.3     Rectification

        12.6     What Is Nitrogen Gas Purity?

        12.7     High-Purity vs. Low-Purity Nitrogen

                     12.7.1     High-Purity Nitrogen Gas

                     12.7.2     Low-Purity Nitrogen Gas

        12.8     How to Check Purity of Nitrogen Gas

        12.9     Nitrogen Gas Purity Classification

        12.10   What Is Ultra High Purity (UHP) Nitrogen Gas?

        12.11   What Is Oxygen-free Nitrogen (OFN)?

13.  Acetylene Gas Manufacturing Process

        13.1     Introduction

        13.2     Discovery of Acetylene Gas

        13.3     Applications of Acetylene Gas

                     13.3.1     Welding, Cutting, and Heat Treating

                     13.3.2     Portable Lighting

                     13.3.3     Production of Chemicals

                     13.3.4     Making of Polyethylene Plastics

                     13.3.5     Importance of Purity of Acetylene

        13.4     Raw Material

        13.5     The Manufacturing Process

                     13.5.1     Chemical Reaction Process

                     13.5.2     Thermal Cracking Process

        13.6     Storage and Handling

        13.7     Quality Control

        13.8     How an Acetylene Gas Plant Works

        13.9     Detailed Technical Process for Acetylene Production

14.  Ethane Gas Manufacturing Process

        14.1     History

        14.2     Structure of Ethane

        14.3     Preparation of Ethane

        14.4     Physical Properties of Ethane

        14.5     Chemical Properties of Ethane

        14.6     Use/Applications

        14.7     Manufacturing Process

                     14.7.1     Exploration and Drilling

                     14.7.2     Extraction

                     14.7.3     Separation

                     14.7.4     Ethane Recovery

                     14.7.5     Compression and Storage

15.  Ethene Gas

        15.1     Ethene Gas Chemical Properties

                     15.1.1     Molecular Formula and Structure

                     15.1.2     Double Bond Reactivity

                     15.1.3     Combustibility

                     15.1.4     Polymerization

                     15.1.5     Addition Reactions

                     15.1.6     Oxidation

                     15.1.7     Acidic Nature

                     15.1.8     Stability and Reactivity

        15.2     Ethene Gas Industrial Uses and Application

                     15.2.1     Production of Plastics

                     15.2.2     Synthetic Rubber Production

                     15.2.3     Solvent

                     15.2.4     Ripening Agent

                     15.2.5     Fuel

                     15.2.6     Production of Ethylene Oxide

                     15.2.7     Agrochemicals

                     15.2.8     Pharmaceuticals

        15.3     Manufacturing Process of Ethene Gas

                     15.3.1     Feedstock Selection

                     15.3.2     Preheating

                     15.3.3     Mixing With Steam

                     15.3.4     Cracking Reaction

                     15.3.5     Quenching

                     15.3.6     Separation and Purification

                     15.3.7     Compression and Storage

16.  Helium Gas Generation

        16.1     Physical Properties

                     16.1.1     Atomic Structure and State of Matter

                     16.1.2     Density and Buoyancy

                     16.1.3     Boiling and Melting Points

                     16.1.4     Thermal Conductivity and Superfluidity

                     16.1.5     Solubility and Interaction with Other Elements

        16.2     Industrial Applications and Uses

                     16.2.1     Healthcare and Medical

                     16.2.2     Manufacturing and Industrial Processes

                     16.2.3     Aerospace and Ballooning

                     16.2.4     Nuclear and Energy

                     16.2.5     Miscellaneous Applications

        16.3     Helium Manufacturing Process

                     16.3.1     Natural Reserves and Extraction

                     16.3.2     Preprocessing and Purification

                     16.3.3     Storage and Distribution

                     16.3.4     Recycling and Conservation

        16.4     Challenges and Future Prospects

                     16.4.1     Helium Reserves and Supply Concerns

                     16.4.2     Alternative Helium Sources

                     16.4.3     Advanced Manufacturing Technologies

                     16.4.4     Global Cooperation and Policy Initiatives

17.  Butane Gas

        17.1     Chemical Properties

                     17.1.1     Combustion

                     17.1.2     Halogenation

                     17.1.3     Inertness

                     17.1.4     Isomerization

        17.2     What are Isomers?

                     17.2.1     Butane

                     17.2.2     Iso-Butane

        17.3     Butane Structure

        17.4     Uses

        17.5     How Butane is Produced?

                     17.5.1     Extraction from Crude Oil

                     17.5.2     Natural Gas Processing

                     17.5.3     Further Processing and Safety Measures

                     17.5.4     Storage and Transport

18.  Butene Gas

        18.1     Isomers

        18.2     Properties

        18.3     Industrial Applications of Butene Gas

                     18.3.1     Polymer Production

                     18.3.2     Fuel Blending

                     18.3.3     Chemical Synthesis

                     18.3.4     Synthetic Rubber Production

                     18.3.5     Butene Isomerization

                     18.3.6     Solvents and Extraction Processes

                     18.3.7     Adhesives and Sealants

        18.4     Butene Gas Manufacturing Process

                     18.4.1     Steam Cracking of Hydrocarbons

                     18.4.2     Catalytic Dehydrogenation

19.  Propane Gas Generation Process

        19.1     Ways Propane Is Produced

                     19.1.1     Propane from Natural Gas Production

                     19.1.2     Propane from Crude Oil Refining

        19.2     Industrial Uses of Propane

        19.3     Chemical Preparation of Propane

        19.4     Raw Materials

        19.5     The Manufacturing Process

        19.6     Quality Control

        19.7     Byproducts/Waste

        19.8     The Future

20.  Propene Gas

        20.1     Chemical Reactions of Propane

        20.2     Uses and Application

                     20.2.1     Polypropylene Production

                     20.2.2     Chemical Manufacturing

                     20.2.3     Fuel and Energy

                     20.2.4     Refrigeration and Air Conditioning

                     20.2.5     Pharmaceuticals and Cosmetics

                     20.2.6     Other Applications

        20.3     Manufacture of Propene (Propylene)

                     20.3.1     Catalytic Cracking of Propane

                     20.3.2     The MTO (Methanol to Olefins) Process

                     20.3.3     The Reaction Between Ethene and Butenes

21.  Methane Gas

        21.1     Importance of Methane

        21.2     Methane Impacts

                     21.2.1     Climate Impacts

                     21.2.2     Health Impacts

        21.3     Properties and Bonding

        21.4     Chemical Reactions

                     21.4.1     Selective Oxidation

                     21.4.2     Acid–Base Reactions

                     21.4.3     Combustion

        21.5     Methane Generation

                     21.5.1     Geological Routes

                     21.5.2     Biological Routes

                     21.5.3     Industrial Routes

22.  Argon Gas

        22.1     The Discovery of Argon

                     22.1.1     Unraveling a Hidden Element

                     22.1.2     The Birth of a New Field

        22.2     Chemical Inertness and Stability

        22.3     Properties of Argon

                     22.3.1     A Noble Gas

                     22.3.2     Colorless, Odorless, and Non-Toxic

                     22.3.3     High Thermal Stability

                     22.3.4     Relatively High Density

        22.4     Industrial Applications and Uses

                     22.4.1     Argon Gas in Metal Fabrication

                     22.4.2     Heat Treatment and Controlled Atmospheres

                     22.4.3     Argon Gas in Lighting and Electronics

                     22.4.4     Other Industrial Applications

                     22.4.5     Future Perspectives and Innovations

        22.5     Production Process of Argon Gas

                     22.5.1     Extraction of Argon from the Atmosphere

                     22.5.2     Argon Gas Purification

                     22.5.3     Storage and Distribution

                     22.5.4     Safety Considerations

                     22.5.5     Environmental Considerations and Challenges

        22.6     Research and Development

        22.7     Branding and Marketing

                     22.7.1     Understanding Branding in the Context of Argon Gas

                     22.7.2     Crafting an Effective Brand Messaging Strategy

                     22.7.3     Designing a Visual Identity

                     22.7.4     Building Brand Awareness and Recognition

                     22.7.5     Embracing Digital Marketing Strategies

                     22.7.6     Tracking and Measuring Brand Performance

23.  Ozone Gas

        23.1     Structure

        23.2     Properties and Formation of Ozone

                     23.2.1     Solar Ultraviolet Radiation

                     23.2.2     Lightning and Electrical Discharges

        23.3     The Ozone Layer

        23.4     Ozone Depletion

        23.5     Impacts of Ozone Depletion

        23.6     Ozone Protection Efforts

        23.7     Applications and Uses of Ozone

                     23.7.1     Ozone in Water Treatment

                     23.7.2     Ozone in Air Purification

                     23.7.3     Ozone in Medical

                     23.7.4     Ozone in Food Preservation

                     23.7.5     Ozone in Industrial Processes

                     23.7.6     Ozone in Environmental Remediation

        23.8     How Ozone is Made

                     23.8.1     Ozone Generation by Corona Discharge

                     23.8.2     Photochemical Ozone Generation

                     23.8.3     Electrolytic Ozone Generation

                     23.8.4     Radiochemical Ozone Generation

24.  Carbon Monoxide Gas

        24.1     Structure of Carbon Monoxide or CO

        24.2     Industrial Applications and Uses

                     24.2.1     Production of Chemicals and Fuels

                     24.2.2     Metal Extraction and Metallurgy

                     24.2.3     Hydrogen Production

                     24.2.4     Chemical and Petrochemical Industry

                     24.2.5     Laboratory and Industrial Processes

        24.3     Production Process

                     24.3.1     Sources of Carbon Monoxide

        24.4     In Laboratory

        24.5     Industrial Processes

                     24.5.1     Steam Reforming of Natural Gas

                     24.5.2     Partial Oxidation of Hydrocarbons

                     24.5.3     Coal Gasification

        24.6     Safety Measures and Environmental Considerations

                     24.6.1     Monitoring Systems

                     24.6.2     Ventilation and Exhaust Systems

                     24.6.3     Personal Protective Equipment (PPE)

                     24.6.4     Environmental Impact

        24.7     Emerging Technologies and Future Prospects

                     24.7.1     Carbon Capture and Utilization (CCU)

                     24.7.2     Renewable Energy Integration

                     24.7.3     Advanced Catalysts and Reaction

                     24.7.4     Safety and Monitoring Systems

                     24.7.5     Environmental Regulations and Standards

25.  Hydrogen Chloride Gas

        25.1     Industrial Applications of Hydrogen Chloride Gas

                     25.1.1     Chemical Industry

                     25.1.2     Metal Processing

                     25.1.3     Water Treatment

                     25.1.4     Pharmaceuticals and Laboratories

        25.2     Preparation of Hydrogen Chloride Gas

                     25.2.1     General Methods

                     25.2.2     Laboratory Method

        25.3     Drying of the Gas (Purification of Gas)

        25.4     Collection

        25.5     Physical Properties of Hydrogen Chloride Gas

        25.6     Hazards and Precautions

                     25.6.1     Toxicity

                     25.6.2     Corrosivity

                     25.6.3     Reactivity

                     25.6.4     Environmental Impact

        25.7     Safety Measures and Emergency Response

                     25.7.1     Training

                     25.7.2     Ventilation and Containment

                     25.7.3     Personal Protective Equipment

                     25.7.4     Emergency Response

26.  Sulphur Hexafluoride Gas

        26.1     Physical and Chemical Properties

        26.2     Industrial Applications and Uses

                     26.2.1     Electrical Industry

                     26.2.2     Semiconductor Manufacturing

                     26.2.3     Medical Applications

                     26.2.4     Metal Production and Processing

                     26.2.5     Sound Insulation and Acoustics

                     26.2.6     Particle Accelerators

                     26.2.7     Leak Detection and Testing

        26.3     Environmental Impact and Regulations

                     26.3.1     Emissions and Leakages

                     26.3.2     Regulations and Alternatives

                     26.3.3     Research and Development

        26.4     Physical Properties of Sulphur Hexafluoride Gas

                     26.4.1     Molecular Structure and Composition

                     26.4.2     Density and Phase Transition

                     26.4.3     Boiling and Melting Points

                     26.4.4     Solubility

                     26.4.5     Thermal Conductivity

                     26.4.6     Dielectric Strength

                     26.4.7     Chemical Inertness

        26.5     Production Process of Sulphur Hexafluoride Gas

                     26.5.1     Sulphur Extraction

                     26.5.2     Fluorine Generation

                     26.5.3     Reaction and Synthesis

                     26.5.4     Purification and Distillation

        26.6     Environmental Concerns and Alternatives

                     26.6.1     Emission Reduction

                     26.6.2     Substitution with Alternative Gases

                     26.6.3     Advanced Technologies

27.  Xenon Gas

        27.1     Chemical Properties

                     27.1.1     Atomic Structure of Xenon

                     27.1.2     Reactivity of Xenon

                     27.1.3     Xenon Compounds

        27.2     Applications

        27.3     Isotopes

        27.4     Precautions

        27.5     The Production of Xenon

                     27.5.1     Sources of Xenon

                     27.5.2     Extraction Methods

                     27.5.3     Purification Techniques

28.  Sulphur Dioxide Gas Compound

        28.1     Structure of Sulphur Dioxide

        28.2     Characteristics of Sulphur Dioxide

        28.3     Sources of Sulphur Dioxide

        28.4     Health Effects

        28.5     Mitigation Strategies

        28.6     pH of Sulphur Dioxide

        28.7     Occurrence of Sulphur Dioxide

        28.8     Uses and Application

                     28.8.1     Industrial Processes

                     28.8.2     Food Preservation

                     28.8.3     Bleaching Agent

                     28.8.4     Refrigeration and Cooling

                     28.8.5     Water Treatment

                     28.8.6     Metal Extraction

                     28.8.7     Air Pollution Control

        28.9     Chemical Properties of Sulphur Dioxide

        28.10   Methods of Preparation of Sulphur Dioxide

                     28.10.1   Combustion of Elemental Sulphur

                     28.10.2   Roasting of Metal Sulphide Ores

                     28.10.3   Contact Process

        28.11   Production of Sulphur Dioxide Gas

                     28.11.1   Sources of Sulphur Dioxide

                     28.11.2   Industrial Production Methods

        28.12   Industrial Applications of Sulphur Dioxide

                     28.12.1   Sulphuric Acid Production

                     28.12.2   Food Preservation

                     28.12.3   Bleaching Agent and Chemical Intermediary

        28.13   Environmental Impact and Control Measures

                     28.13.1   Air Pollution

                     28.13.2   Regulatory Measures

        28.14   Environmental Considerations

                     28.14.1   Emissions and Air Pollution Control

                     28.14.2   Waste Management and Disposal

        28.15   Safety Considerations

                     28.15.1   Handling and Storage

                     28.15.2   Personal Protective Equipment

        28.16   Quality Control and Monitoring

                     28.16.1   Purity and Impurities

                     28.16.2   Continuous Monitoring

        28.17   Future Trends and Innovations

                     28.17.1   Conversion into Value-Added Products

                     28.17.2   Environmental Applications

                     28.17.3   Sustainable Industrial Practices

                     28.17.4   Advanced Monitoring and Control Systems

                     28.17.5   Regulatory Framework and Collaboration

29.  Ammonia Gas Compound

        29.1     Structure of Ammonia (NH3)

        29.2     Properties of Ammonia (NH3)

        29.3     Preparation of Ammonia

        29.4     Applications and Uses of Ammonia Gas

                     29.4.1     Ammonia in Agriculture

                     29.4.2     Ammonia in Refrigeration

                     29.4.3     Ammonia in Manufacturing Processes

                     29.4.4     Ammonia as a Fuel and Energy Source

                     29.4.5     Ammonia for Cleaning and Decontamination

                     29.4.6     Other Applications of Ammonia

        29.5     Production Process of Ammonia

                     29.5.1     Nitrogen Extraction

                     29.5.2     Hydrogen Production

                     29.5.3     Ammonia Synthesis

                     29.5.4     Separation and Purification

                     29.5.5     Storage and Distribution

        29.6     Natural Occurrence of Ammonia

        29.7     Future Opportunities of Ammonia Gas

                     29.7.1     Ammonia as a Green Energy Carrier

                     29.7.2     Ammonia as a Zero-Emission Fuel

                     29.7.3     Ammonia as a Sustainable Fertilizer

                     29.7.4     Ammonia for Hydrogen Storage and Delivery

                     29.7.5     Challenges and Considerations

        29.8     Regulatory Changes and Industry Compliance of Ammonia Gas

                     29.8.1     The Environmental Impact of Ammonia Gas

                     29.8.2     Regulatory Changes for Ammonia Gas

                     29.8.3     Industry Compliance and Best Practices

                     29.8.4     Collaboration and Knowledge Sharing

        29.9     Branding and Marketing Strategies for Ammonia Gas

                     29.9.1     Understanding Ammonia Gas

                     29.9.2     Identifying the Target Audience

                     29.9.3     Establishing Brand Identity

                     29.9.4     Crafting Brand Messaging

                     29.9.5     Marketing Channels and Tactics

                     29.9.6     Building Customer Relationships

30.  Nitrogen Trifluoride Gas

        30.1     Chemical Structure and Properties

                     30.1.1     Stability

                     30.1.2     Solubility

                     30.1.3     Chemical Reactivity

        30.2     Applications

                     30.2.1     Semiconductor Manufacturing

                     30.2.2     Solar Energy Applications

                     30.2.3     Plasma Etching

                     30.2.4     Fluorination Reactions

                     30.2.5     Propellant

                     30.2.6     Other Applications

        30.3     Synthesis and Reactivity

        30.4     Manufacturing Process

                     30.4.1     Synthesis from Ammonium Fluoride (NH4F) and
Sodium Fluoride (NaF)

                     30.4.2     Purification and Refinement

                     30.4.3     Storage and Packaging

        30.5     Environmental Considerations and Sustainability
Efforts

                     30.5.1     Environmental Impact

                     30.5.2     Emission Reduction and Recovery Efforts

                     30.5.3     Industry Collaboration and Regulatory Measures

        30.6     Safety Considerations and Handling Practices

                     30.6.1     Safety Precautions

                     30.6.2     Storage and Transportation

        30.7     Future Perspectives and Research

                     30.7.1     Improved Production Efficiency

                     30.7.2     Alternative Cleaning and Etching Agents

                     30.7.3     Emission Reduction Technologies

                     30.7.4     Lifecycle Assessment

31.  Neon Gas

        31.1     The Birth of Neon

                     31.1.1     Unveiling the Origins

                     31.1.2     The Discovery of Neon

        31.2     Properties of Neon

        31.3     Uses and Applications of Neon Gas

                     31.3.1     Neon Signage

                     31.3.2     Lighting Applications

                     31.3.3     Scientific and Medical Research

                     31.3.4     Liquid Neon

                     31.3.5     Neon in Art and Entertainment

                     31.3.6     Astrophysics and Plasma Studies

        31.4     Chemical Properties of Neon Gas

                     31.4.1     Chemical Inertness

        31.5     The Production of Neon Gas

                     31.5.1     Raw Materials and Extraction

                     31.5.2     Neon Extraction from the Atmosphere

                     31.5.3     Purification of Neon

                     31.5.4     Fractional Distillation

                     31.5.5     Storage and Distribution

        31.6     Manufacturing of Neon Signs

                     31.6.1     Glass Tube Preparation

                     31.6.2     Electrode Placement

                     31.6.3     Vacuuming and Gas Filling

                     31.6.4     Sealing and Testing

                     31.6.5     Assembly and Wiring

        31.7     Branding and Marketing Strategies for Neon Gas

                     31.7.1     Understanding Neon Gas: A Radiant Opportunity

                     31.7.2     Developing a Strong Brand Identity

                     31.7.3     Branding Strategies for Neon Gas

                     31.7.4     Implementing Effective Marketing Tactics

                     31.7.5     Leveraging Brand Equity and Customer Loyalty

32.  Krypton Gas Production

        32.1     Chemical Properties

        32.2     Atomic Structure of Krypton

        32.3     Isotope of Krypton

        32.4     Uses of Krypton

                     32.4.1     Commercial Applications

                     32.4.2     Research Applications

                     32.4.3     Medical Applications

                     32.4.4     Miscellaneous Applications

        32.5     The Production Process of Krypton Gas

                     32.5.1     Extraction of Krypton from Air

                     32.5.2     Purification of Krypton Gas

                     32.5.3     Krypton Gas Storage and Distribution

        32.6     Conclusion

33.  Nitrous Oxide Gas

        33.1     Introduction

        33.2     Historical Significance

        33.3     Physical Properties

                     33.3.1     State and Appearance

                     33.3.2     Density and Solubility

                     33.3.3     Stability

        33.4     Applications and Uses

                     33.4.1     Medical and Dental

                     33.4.2     Food and Beverage

                     33.4.3     Automotive and Racing

                     33.4.4     Electronics and Semiconductors

        33.5     Chemical Properties

        33.6     Expansion of Industrial Applications

                     33.6.1     Aerospace and Rocket Propulsion

                     33.6.2     Semiconductor Manufacturing

                     33.6.3     Analytical Chemistry

                     33.6.4     Welding and Metal Fabrication

                     33.6.5     Water Treatment

        33.7     The Production Process of Nitrous Oxide Gas

                     33.7.1     Raw Materials and Sourcing

                     33.7.2     Nitric Oxide Production

                     33.7.3     Nitrogen Dioxide Formation

                     33.7.4     Absorption and Purification

                     33.7.5     Nitrous Oxide Formation

                     33.7.6     Quality Control

        33.8     Safety Precautions and Environmental Considerations

                     33.8.1     Handling of Raw Materials

                     33.8.2     Catalytic Converter Operation

                     33.8.3     Ventilation and Containment

                     33.8.4     Fire and Explosion Prevention

                     33.8.5     Waste Management

                     33.8.6     Emissions Control

                     33.8.7     Energy Efficiency

                     33.8.8     Environmental Impact Assessments

        33.9     Future Prospects and Challenges

                     33.9.1     Environmental Concerns

                     33.9.2     Regulatory Measures

                     33.9.3     Advancements in Production

                     33.9.4     Safety and Occupational Health

                     33.9.5     Research and Innovation

        33.10   Exploration of Research and Development

                     33.10.1   Green Production Methods

                     33.10.2   Carbon Capture and Utilization

                     33.10.3   Nitrous Oxide Sensors and Monitoring

                     33.10.4   Nitrous Oxide Decomposition Catalysts

                     33.10.5   Nitrous Oxide Emission Reduction Strategies

                     33.10.6   Nitrous Oxide as an Energy Storage Medium

        33.11   Branding and Marketing Strategies for Nitrous Oxide Production

                     33.11.1   Understanding the Nitrous Oxide Market

                     33.11.2   Developing a Strong Brand Identity

                     33.11.3   Targeted Marketing Strategies

                     33.11.4   Building Trust and Credibility

                     33.11.5   Implementing Effective Communication Channels

                     33.11.6   Monitoring and Analyzing Performance

34.  Liquefied Natural Gas (LNG)

        34.1     Introduction

        34.2     Understanding Liquefied Natural Gas

        34.3     Significance of Liquefied Natural Gas

                     34.3.1     Energy Security and Diversification

                     34.3.2     Environmental Benefits

        34.4     What Is Liquefied Natural Gas Used For?

        34.5     What are the Differences Between Raw, Compressed,
and Liquefied Natural Gas?

        34.6     Characteristics of Liquefied Natural Gas

        34.7     Applications of Liquefied Natural Gas

                     34.7.1     Power Generation

                     34.7.2     Transportation

                     34.7.3     Industrial Applications

                     34.7.4     Residential and Commercial Use

        34.8     How Liquefied Natural Gas (LNG) Works

        34.9     The Liquefied Natural Gas Production Process

                     34.9.1     Natural Gas Extraction

                     34.9.2     Liquefaction

                     34.9.3     Treatment and Removal of Impurities

                     34.9.4     Storage and Transportation

                     34.9.5     Regasification and Distribution

        34.10   Environmental Considerations and Sustainability

                     34.10.1   Methane Emissions

                     34.10.2   Carbon Capture and Storage

                     34.10.3   Transition to Renewable Energy

35.  Refrigerant Gases

        35.1     Purpose of Refrigerant Gas

                     35.1.1     Heat Exchange

                     35.1.2     Enabling Efficient Cooling

                     35.1.3     Environmentally Friendly Options

        35.2     Common Category of Refrigerants

                     35.2.1     Chlorofluorocarbons (CFCs)

                     35.2.2     Hydrochloro-fluorocarbons (HCFCs)

                     35.2.3     Hydrofluorocarbons (HFCs)

                     35.2.4     Inorganic or Natural Refrigerants

                     35.2.5     Mixtures

        35.3     Applications of Refrigerant Gas

        35.4     Manufacturing Process

                     35.4.1     Raw Material Preparation

                     35.4.2     Synthesis Process

                     35.4.3     Distillation and Purification

                     35.4.4     Blending

                     35.4.5     Quality Control and Safety Measures

                     35.4.6     Packaging and Distribution

36.  Gas Mixtures

        36.1     Types of Gas Mixtures

                     36.1.1     Air

                     36.1.2     Natural Gas

                     36.1.3     LPG (Liquefied Petroleum Gas)

                     36.1.4     Welding Gas Mixtures

                     36.1.5     Medical Gas Mixtures

                     36.1.6     Calibration Gas Mixtures

                     36.1.7     Environmental Test Gas Mixtures

                     36.1.8     Specialty Gas Mixtures

        36.2     The Wide Range of Uses of Gas Mixtures

                     36.2.1     Industrial Applications

                     36.2.2     Medical Applications

                     36.2.3     Scientific Research and Analysis

                     36.2.4     Calibration and Instrumentation

                     36.2.5     Environmental Studies

        36.3     Physical Properties

                     36.3.1     Pressure

                     36.3.2     Volume

                     36.3.3     Temperature

                     36.3.4     Density

                     36.3.5     Molecular Weight

                     36.3.6     Diffusion

                     36.3.7     Partial Pressure

                     36.3.8     Solubility

        36.4     The Manufacturing Process of Gas Mixtures

                     36.4.1     Gas Selection

                     36.4.2     Purification

                     36.4.3     Blending

                     36.4.4     Analysis

                     36.4.5     Quality Control

                     36.4.6     Packaging

                     36.4.7     Storage and Transportation

        36.5     A Strategic Approach for Success

                     36.5.1     Understanding the Supply Chain of Gas Mixtures

                     36.5.2     Branding Gas Mixtures

                     36.5.3     Marketing Gas Mixtures

        36.6     Market of Gas Mixtures

37.  Breathing Gas Mixture

        37.1     Composition of Breathing Gases

        37.2     Applications of Breathing Gases

                     37.2.1     Diving

                     37.2.2     Aerospace

                     37.2.3     Medical and Healthcare

                     37.2.4     Sports and Performance Enhancement

        37.3     Production Process of Breathing Gases

                     37.3.1     Sourcing and Storage

                     37.3.2     Purification and Compression

                     37.3.3     Quality Control and Testing

                     37.3.4     Packaging and Distribution

                     37.3.5     Compliance with Regulatory Standards

        37.4     Safety Considerations

                     37.4.1     Gas Purity and Contamination

                     37.4.2     Equipment Compatibility

                     37.4.3     Training and Certification

        37.5     Future Developments and Challenges

                     37.5.1     Novel Gas Combinations

                     37.5.2     Gas Delivery Systems

                     37.5.3     Environmental Considerations

38.  Forming Gas Mixture

        38.1     Composition of Forming Gas

        38.2     Properties of Forming Gas

        38.3     Applications of Forming Gas

                     38.3.1     Annealing and Heat Treatment

                     38.3.2     Soldering and Brazing

                     38.3.3     Electronics Manufacturing

                     38.3.4     Powder Metallurgy

                     38.3.5     Solar Cell Fabrication

        38.4     Advantages of Forming Gas

                     38.4.1     Oxidation Prevention

                     38.4.2     Improved Soldering Quality

                     38.4.3     Enhanced Electrical Properties

                     38.4.4     Cost-Effectiveness

        38.5     Production Process of Forming Gas

                     38.5.1     Gas Generation

                     38.5.2     Nitrogen Separation

                     38.5.3     Gas Blending

                     38.5.4     Gas Purification

        38.6     Quality Control and Safety Measures

        38.7     Supply Chain Challenges and Optimization

                     38.7.1     Sourcing and Procurement

                     38.7.2     Transportation and Logistics

                     38.7.3     Inventory Management

                     38.7.4     Supplier Relationship Management

        38.8     Branding and Marketing Strategies

                     38.8.1     Differentiation and Positioning

                     38.8.2     Market Segmentation and Targeting

                     38.8.3     Digital Marketing and Online Presence

                     38.8.4     Customer Relationship Management

        38.9     Regulatory Changes and Industry Compliance

                     38.9.1     Environmental and Safety Regulations

                     38.9.2     Quality Control and Standards

                     38.9.3     International Trade Regulations

                     38.9.4     Industry-Specific Regulations

39.  Shielding Gas Mixture

        39.1     Understanding Shielding Gas

        39.2     Importance of Shielding Gas in Welding

        39.3     Composition of Shielding Gas

                     39.3.1     Argon (Ar)

                     39.3.2     Carbon Dioxide (CO)

                     39.3.3     Helium (He)

                     39.3.4     Oxygen (O2)

        39.4     Types of Shielding Gases

                     39.4.1     Inert Shielding Gases

                     39.4.2     Active Shielding Gases

                     39.4.3     Gas Mixtures

        39.5     Properties

                     39.5.1     Purity of Shielding Gas

                     39.5.2     Flow Rate and Pressure

                     39.5.3     Gas Ionization Potential

                     39.5.4     Thermal Conductivity and Heat Transfer

                     39.5.5     Reactive vs. Inert Shielding Gases

        39.6     Shielding Gas Selection

        39.7     Production of Shielding Gas

        39.8     Quality Control and Safety Measures

        39.9     Importance of Quality Shielding Gas

40.  Penning Gas Mixtures

        40.1     Applications of Penning Gas Mixtures

                     40.1.1     Gas Discharge Lighting

                     40.1.2     Particle Detectors

                     40.1.3     Radiation Detectors

                     40.1.4     Electron Multiplier Devices

                     40.1.5     Ion Lasers

                     40.1.6     Plasma Processing

                     40.1.7     Gas Amplification Systems

        40.2     Manufacturing Process of Penning Gas Mixtures

                     40.2.1     Gas Selection and Purity Control

                     40.2.2     Gas Preparation and Handling

                     40.2.3     Gas Blending and Mixing

                     40.2.4     Quality Control and Analysis

                     40.2.5     Packaging and Storage

        40.3     Future Opportunities of Penning Gas Mixtures

        40.4     Advancements in Technology

        40.5     Energy Applications

        40.6     Healthcare and Biomedical Applications

        40.7     Supply Chain Management

        40.8     Branding and Marketing Strategies

        40.9     Regulatory Changes and Industry Compliance

        40.10   Technology and Innovation

        40.11   Internationalization and Global Supply Chains

        40.12   Industry Collaboration and Partnerships

        40.13   Continuous Improvement and Adaptability

41.  BIS Standards

42.  ISO Standards

43.  Plant Layout and Process Flow Chart & Diagram

44.  Photographs of Plant and Machinery with Suppliers Contact Details

     Acetylene Generator

      Oxygen Compressor

      Oxygen Gas Generator

      Cryogenic Storage

      Actuated Valves

      Gas Liquefaction Chillers Machine

      Gas Filter Machine

      Air Tank

      CO2 Compressor

      High Temperature Refrigeration Dryer

      Gas Mixers

      Pressure Gauge

      High Pressure Cylinders

      Gas Purity Tester

      Gas Filling Machine

      Gas Recovery Machine

      Expansion Engine

      Centrifuge

      Liquid Oxygen Pump

      Liquid Nitrogen Tank Filling Station

      Industrial Water Softener

      Hydrogen Gas Generator

      Moisture Separator

      Water Softener

 

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Our Market Survey cum Detailed Techno Economic Feasibility Report Contains following information:

Introduction
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Market Study and Assessment
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Raw Material
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Personnel (Manpower) Requirements
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Plant and Machinery
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  • Miscellaneous Items
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Infrastructure and Utilities
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Assumptions for Profitability workings
Plant Economics
Production Schedule
Land & Building
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Plant & Machinery
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Other Fixed Assets
  • Furniture & Fixtures
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  • Technical Knowhow
  • Provision of Contingencies
Working Capital Requirement Per Month
  • Raw Material
  • Packing Material
  • Lab & ETP Chemical Cost
  • Consumable Store
Overheads Required Per Month And Per Annum
  • Utilities & Overheads (Power, Water and Fuel Expenses etc.)
  • Royalty and Other Charges
  • Selling and Distribution Expenses
Salary and Wages
Turnover Per Annum
Share Capital
  • Equity Capital
  • Preference Share Capital
Annexure 1:: Cost of Project and Means of Finance
Annexure 2:: Profitability and Net Cash Accruals
  • Revenue/Income/Realisation
  • Expenses/Cost of Products/Services/Items
  • Gross Profit
  • Financial Charges
  • Total Cost of Sales
  • Net Profit After Taxes
  • Net Cash Accruals
Annexure 3 :: Assessment of Working Capital requirements
  • Current Assets
  • Gross Working. Capital
  • Current Liabilities
  • Net Working Capital
  • Working Note for Calculation of Work-in-process
Annexure 4 :: Sources and Disposition of Funds
Annexure 5 :: Projected Balance Sheets
  • ROI (Average of Fixed Assets)
  • RONW (Average of Share Capital)
  • ROI (Average of Total Assets)
Annexure 6 :: Profitability ratios
  • D.S.C.R
  • Earnings Per Share (EPS)
  • Debt Equity Ratio
Annexure 7 :: Break-Even Analysis
  • Variable Cost & Expenses
  • Semi-Var./Semi-Fixed Exp.
  • Profit Volume Ratio (PVR)
  • Fixed Expenses / Cost
  • B.E.P
Annexure 8 to 11:: Sensitivity Analysis-Price/Volume
  • Resultant N.P.B.T
  • Resultant D.S.C.R
  • Resultant PV Ratio
  • Resultant DER
  • Resultant ROI
  • Resultant BEP
Annexure 12 :: Shareholding Pattern and Stake Status
  • Equity Capital
  • Preference Share Capital
Annexure 13 :: Quantitative Details-Output/Sales/Stocks
  • Determined Capacity P.A of Products/Services
  • Achievable Efficiency/Yield % of Products/Services/Items
  • Net Usable Load/Capacity of Products/Services/Items
  • Expected Sales/ Revenue/ Income of Products/ Services/ Items
Annexure 14 :: Product wise domestic Sales Realisation
Annexure 15 :: Total Raw Material Cost
Annexure 16 :: Raw Material Cost per unit
Annexure 17 :: Total Lab & ETP Chemical Cost
Annexure 18 :: Consumables, Store etc.,
Annexure 19 :: Packing Material Cost
Annexure 20 :: Packing Material Cost Per Unit
Annexure 21 :: Employees Expenses
Annexure 22 :: Fuel Expenses
Annexure 23 :: Power/Electricity Expenses
Annexure 24 :: Royalty & Other Charges
Annexure 25 :: Repairs & Maintenance Exp.
Annexure 26 :: Other Mfg. Expenses
Annexure 27 :: Administration Expenses
Annexure 28 :: Selling Expenses
Annexure 29 :: Depreciation Charges – as per Books (Total)
Annexure 30 :: Depreciation Charges – as per Books (P & M)
Annexure 31 :: Depreciation Charges - As per IT Act WDV (Total)
Annexure 32 :: Depreciation Charges - As per IT Act WDV (P & M)
Annexure 33 :: Interest and Repayment - Term Loans
Annexure 34 :: Tax on Profits
Annexure 35 ::Projected Pay-Back Period And IRR