Hazardous Gases Risk Assessment on the Environment and Human Health 1st Edition by Jaspal Singh, RD Kaushik, Malvika Chawla ISBN 9780323898577 0323898572

Hazardous Gases Risk Assessment on the Environment and Human Health 1st Edition by Jaspal Singh, RD Kaushik, Malvika Chawla – Ebook PDF Instant Download/Delivery: 9780323898577 ,0323898572
Full download Hazardous Gases Risk Assessment on the Environment and Human Health 1st Edition after payment

Product details:

ISBN 10: 0323898572
ISBN 13: 9780323898577
Author: Jaspal Singh, RD Kaushik, Malvika Chawla

Hazardous Gases: Risk Assessment on Environment and Human Health examines all relevant routes of exposure, inhalation, skin absorption and ingestion, and control measures of specifics hazardous gases resulting from workplace exposure from industrial processes, traffic fumes, and the degradation of waste materials and how they impacts the health and environment of workers. The book examines the risk assessment and effect of poisonous gases on the environment human health. It also covers necessary emergency guidelines, safety measures, physiological impact, hazard control measures, handling and storage of hazardous gases. Each chapter is formatted to include an introduction, historical background, physicochemical properties, physiological role discussing mechanisms of toxicity, its effect on human health as well as environment, followed by case studies and recent research on toxic gases. Hazardous Gases: Risk Assessment on Environment and Human Health is a helpful resource for academics and researchers in toxicology, occupational health and safety, and environmental sciences as well as those in the field who work to assess and mitigate the impact of toxic gases on the work environment and the health of the workforce.

Hazardous Gases Risk Assessment on the Environment and Human Health 1st Edition Table of contents:

Chapter 1: Arsenic pentafluoride: Risk assessment, environmental, and health hazard

Abstract

1.1: Introduction

1.2: Occurrence

1.3: Physicochemical properties

1.4: Physiological role

1.5: Uses

1.6: Risk assessment

1.7: Hazardousness

1.8: Treatment

1.9: Risk management

1.10: Current research

1.11: Safety measures

1.12: Handling and storage (Jaishankar et al., 2014)

1.13: Precautions

Chapter 2: Arsine: Risk assessment, environmental, and health hazard

Abstract

2.1: Introduction

2.2: Occurrence

2.3: Historical background

2.4: Physicochemical properties

2.5: Physiological role

2.6: Uses

2.7: Sources of contaminants

2.8: Risk assessment

2.9: Hazardousness

2.10: Treatment

2.11: Risk management

2.12: Current research

2.13: Arsine toxicity: Case studies

2.14: Safety measures

2.15: Handling

2.16: Storage (Hong et al., 2014)

2.17: Precautions

Chapter 3: Boron trichloride: Risk assessment, environmental, and health hazard

Abstract

3.1: Introduction

3.2: Occurrence

3.3: Physicochemical properties

3.4: Physiological role

3.5: Uses

3.6: Source of contaminants

3.7: Risk assessment

3.8: Hazardousness

3.9: Environmental effects

3.10: Risk management

3.11: Safety measures

3.12: Handling and storage

3.13: Precautions

Chapter 4: Boron trifluoride: Risk assessment, environmental, and health hazard

Abstract

4.1: Introduction

4.2: Occurrence

4.3: Historical background

4.4: Physicochemical properties

4.5: Uses

4.6: Sources of contaminants

4.7: Risk assessment

4.8: Environmental effects

4.9: Hazardousness

4.10: Risk management

4.11: Current research

4.12: Safety measures

4.13: Handling and storage

4.14: Precautions

Chapter 5: Bromine: Risk assessment, environmental, and health hazard

Abstract

5.1: Introduction

5.2: Occurrence

5.3: Historical background

5.4: Physicochemical properties

5.5: Physiological role

5.6: Uses

5.7: Sources of contaminants

5.8: Risk assessment

5.9: Environmental effects

5.10: Hazardousness

5.11: Treatment

5.12: Risk management

5.13: Current research

5.14: Bromine toxicity: Case study

5.15: Safety measures

5.16: Handling and storage

5.17: Precautions

Chapter 6: Bromine chloride: Risk assessment, environmental, and health hazard

Abstract

6.1: Introduction

6.2: Historical background

6.3: Physicochemical properties

6.4: Physiological role

6.5: Uses

6.6: Sources of contaminants

6.7: Risk assessment

6.8: Environmental effects

6.9: Hazardousness

6.10: Treatment

6.11: Risk management

6.12: Current research

6.13: Safety measures

6.14: Handling and storage

6.15: Precautions

Chapter 7: Carbon dioxide: Risk assessment, environmental, and health hazard

Abstract

7.1: Introduction

7.2: Occurrence

7.3: Historical background

7.4: Physicochemical properties

7.5: Physiological role

7.6: Uses

7.7: Sources of contaminants

7.8: Risk assessment

7.9: Environmental effects

7.10: Hazardousness

7.11: Treatment

7.12: Risk management

7.13: Current research

7.14: Carbon dioxide toxicity: Case study

7.15: Safety measures

7.16: Storage and handling

7.17: Precautions

Chapter 8: Carbon monoxide: Risk assessment, environmental, and health hazard

Abstract

8.1: Introduction

8.2: Occurrence

8.3: Historical background

8.4: Physicochemical properties

8.5: Physiological role

8.6: Uses

8.7: Sources of contaminants

8.8: Risk assessment

8.9: Environmental effects

8.10: Hazardousness

8.11: Treatment

8.12: Risk management

8.13: Current research

8.14: Carbon monoxide toxicity: Case study

8.15: Safety measures

8.16: Handling and storage

8.17: Precautions

Chapter 9: Chlorine: Risk assessment, environmental, and health hazard

Abstract

9.1: Introduction

9.2: Occurrence

9.3: Historical background

9.4: Physicochemical properties

9.5: Physiological role

9.6: Uses

9.7: Sources of contaminants

9.8: Risk assessment

9.9: Environmental effects

9.10: Hazardousness

9.11: Treatment

9.12: Risk management

9.13: Current research

9.14: Chlorine toxicity: Case study

9.15: Safety measures

9.16: Handling and storage

9.17: Precautions

Chapter 10: Cyanogen: Risk assessment, environmental, and health hazard

Abstract

10.1: Introduction

10.2: Occurrence

10.3: Historical background

10.4: Physicochemical properties

10.5: Physiological role

10.6: Uses

10.7: Sources of contaminants

10.8: Risk assessment

10.9: Environmental effects

10.10: Hazardousness

10.11: Treatment

10.12: Risk management

10.13: Current research

10.14: Safety measures

10.15: Handling and storage

10.16: Precautions

Chapter 11: Cyanogen chloride: Risk assessment, environmental, and health hazard

Abstract

11.1: Introduction

11.2: Occurrence

11.3: Historical background

11.4: Physiochemical properties

11.5: Physiological role

11.6: Uses

11.7: Sources of contaminants

11.8: Risk assessment

11.9: Environmental effects

11.10: Hazardousness

11.11: Treatment

11.12: Risk management

11.13: Current research

11.14: Cyanogen chloride toxicity

11.15: Safety measures

11.16: Handling and storage

11.17: Precautions

Chapter 12: Diazomethane: Risk assessment, environmental, and health hazard

Abstract

12.1: Introduction

12.2: Occurrence

12.3: Historical background

12.4: Physicochemical properties

12.5: Physiological role

12.6: Uses

12.7: Risk assessment

12.8: Environmental effects

12.9: Hazardousness

12.10: Treatment

12.11: Risk management

12.12: Current research

12.13: Diazomethane toxicity: Case study

12.14: Safety measures

12.15: Handling and storage

12.16: Precautions

Chapter 13: Fluorine: Risk assessment, environmental, and health hazard

Abstract

13.1: Introduction

13.2: Occurrence

13.3: Historical background

13.4: Physicochemical properties

13.5: Physiological role

13.6: Uses

13.7: Sources of contaminants

13.8: Risk assessment

13.9: Environmental effects

13.10: Hazardousness

13.11: Treatment

13.12: Risk management

13.13: Current research

13.14: Fluorine toxicity: Case study

13.15: Safety measures

13.16: Handling and storage

13.17: Precautions

Chapter 14: Formaldehyde: Risk assessment, environmental, and health hazard

Abstract

14.1: Introduction

14.2: Occurrence

14.3: Historical background

14.4: Physicochemical properties

14.5: Physiological role

14.6: Uses

14.7: Sources of contaminants

14.8: Risk assessment

14.9: Environmental effects

14.10: Hazardousness

14.11: Treatment

14.12: Risk management

14.13: Current research

14.14: Formaldehyde toxicity: Case study

14.15: Safety measures

14.16: Handling and storage

14.17: Precautions

Chapter 15: Hydrogen cyanide: Risk assessment, environmental, and health hazard

Abstract

15.1: Introduction

15.2: Occurrence

15.3: Historical background

15.4: Physicochemical properties

15.5: Physiological role

15.6: Uses

15.7: Sources of contaminants

15.8: Risk assessment

15.9: Environmental effects

15.10: Hazardousness

15.11: Treatment

15.12: Risk management

15.13: Current research

15.14: Cyanide toxicity: Case studies

15.15: Safety measures

15.16: Storage and handling

15.17: Precautions

Chapter 16: Hydrogen selenide: Risk assessment, environmental, and health hazard

Abstract

16.1: Introduction

16.2: Occurrence

16.3: Physicochemical properties

16.4: Physiological role

16.5: Uses

16.6: Risk assessment

16.7: Environmental effects

16.8: Hazardousness

16.9: Treatment

16.10: Risk management

16.11: Current research

16.12: Selenide toxicity: Case study

16.13: Safety measures

16.14: Handling and storage

16.15: Precautions

Chapter 17: Hydrogen sulfide: Risk assessment, environmental, and health hazard

Abstract

17.1: Introduction

17.2: Occurrence

17.3: Historical background

17.4: Physicochemical properties

17.5: Physiological role

17.6: Uses

17.7: Sources of contaminants

17.8: Risk assessment

17.9: Environmental effects

17.10: Hazardousness

17.11: Risk management

17.12: Treatment

17.13: Current research

17.14: Sulfide toxicity: Case study

17.15: Safety measures

17.16: Handling and storage

17.17: Precautions

Chapter 18: Methane: Risk assessment, environmental, and health hazard

Abstract

18.1: Introduction

18.2: Occurrence

18.3: Historical background

18.4: Physicochemical properties

18.5: Physiological role

18.6: Uses

18.7: Sources of contaminants

18.8: Risk assessment

18.9: Environmental effects

18.10: Hazardousness

18.11: Risk management

18.12: Current research

18.13: Methane toxicity: Case study

18.14: Safety measures

18.15: Handling and storage

18.16: Precautions

Chapter 19: Methyl bromide: Risk assessment, environmental, and health hazard

Abstract

19.1: Introduction

19.2: Physicochemical properties

19.3: Physiological role

19.4: Uses

19.5: Sources of contaminants

19.6: Risk assessment

19.7: Environmental effects

19.8: Hazardousness

19.9: Risk management

19.10: Methyl bromide toxicity: Case study

19.11: Safety measures

19.12: Handling and storage

19.13: Precautions

Chapter 20: Methyl isocyanate: Risk assessment, environmental, and health hazard

Abstract

20.1: Introduction

20.2: Occurrence

20.3: Historical background

20.4: Physicochemical properties

20.5: Physiological role

20.6: Uses

20.7: Sources of contaminants

20.8: Risk assessment

20.9: Environmental effects

20.10: Hazardousness

20.11: Risk management

20.12: Current research

20.13: Methyl Isocyanate: Case study

20.14: Safety measures

20.15: Handling and storage

20.16: Precautions

Chapter 21: Nitric oxide: Risk assessment, environmental, and health hazard

Abstract

21.1: Introduction

21.2: Occurrence

21.3: Historical background

21.4: Physicochemical properties

21.5: Physiological role

21.6: Uses

21.7: Sources of contaminants

21.8: Risk assessment

21.9: Environmental effects

21.10: Hazardousness

21.11: Treatment

21.12: Risk management

21.13: Current research

21.14: Nitric oxide toxicity: Case study

21.15: Safety measures

21.16: Storage and handling

21.17: Precautions

Chapter 22: Nitrogen dioxide: Risk assessment, environmental, and health hazard

Abstract

22.1: Introduction

22.2: Occurrence

22.3: Physicochemical properties

22.4: Physiological role

22.5: Uses

22.6: Sources of contaminants

22.7: Risk assessment

22.8: Environmental effects

22.9: Hazardousness

22.10: Treatment

22.11: Risk management

22.12: Current research

22.13: Nitrogen dioxide toxicity: Case study

22.14: Safety measures

22.15: Handling and storage

22.16: Precautions

Chapter 23: Oxygen: Risk assessment, environmental, and health hazard

Abstract

23.1: Introduction

23.2: Historical background

23.3: Physicochemical properties

23.4: Physiological role

23.5: Uses

23.6: Sources of contaminants

23.7: Risk assessment

23.8: Environmental effects

23.9: Hazardousness

23.10: Treatment

23.11: Risk management

23.12: Current research

23.13: Oxygen toxicity: Case study

23.14: Safety measures

23.15: Handling and storage

23.16: Precautions

Chapter 24: Ozone: Risk assessment, environmental, and health hazard

Abstract

24.1: Introduction

24.2: Occurrence

24.3: Historical background

24.4: Physicochemical properties

24.5: Physiological role

24.6: Uses

24.7: Sources of contamination

24.8: Risk assessment

24.9: Environmental Effect

24.10: Hazardousness

24.11: Treatment

24.12: Risk management

24.13: Current research

24.14: Ozone toxicity

24.15: Safety measures

24.16: Storage and handling

24.17: Precautions

Chapter 25: Phosgene: Risk assessment, environmental, and health hazard

Abstract

25.1: Introduction

25.2: Occurrence

25.3: Historical background

25.4: Physicochemical properties

25.5: Physiological role

25.6: Uses

25.7: Sources of contaminants

25.8: Risk assessment

25.9: Environmental effects

25.10: Hazardousness

25.11: Risk management

25.12: Current research

25.13: Phosgene toxicity: Case study

25.14: Safety measures

25.15: Handling and storage

25.16: Precautions

Chapter 26: Phosphine: Risk assessment, environmental, and health hazard

Abstract

26.1: Introduction

26.2: Occurrence

26.3: Historical background

26.4: Physicochemical properties

26.5: Physiological role

26.6: Uses

26.7: Sources of contaminants

26.8: Risk assessment

26.9: Environmental effects

26.10: Hazardousness

26.11: Treatment

26.12: Risk management

26.13: Current research

26.14: Phosphine toxicity: Case study

26.15: Safety measures

26.16: Handling and storage

26.17: Precautions

Chapter 27: Phosphorus pentafluoride: Risk assessment, environmental, and health hazard

Abstract

27.1: Introduction

27.2: Occurrence

27.3: Historical background

27.4: Physicochemical properties

27.5: Physiological role

27.6: Uses

27.7: Sources of contaminants

27.8: Risk assessment

27.9: Environmental effects

27.10: Hazardousness

27.11: Treatment

27.12: Risk management

27.13: Current research

27.14: Phosphorous pentafluoride: Case study

27.15: Safety measures

27.16: Handling and storage

27.17: Precautions

Chapter 28: Silane: Risk assessment, environmental, and health hazard

Abstract

28.1: Introduction

28.2: Occurrence

28.3: Historical background

28.4: Physicochemical properties

28.5: Physiological role

28.6: Uses

28.7: Sources of contaminants

28.8: Risk assessment

28.9: Hazardousness

28.10: Treatment

28.11: Risk management

28.12: Current research

28.13: Silane toxicity: Case study

28.14: Safety measures

28.15: Handling and storage

28.16: Precautions

Chapter 29: Styrene: Risk assessment, environmental, and health hazard

Abstract

29.1: Introduction

29.2: Occurrence

29.3: Historical background

29.4: Physicochemical properties

29.5: Physiological role

29.6: Uses

29.7: Source of contaminants

29.8: Risk assessment

29.9: Environmental effects

29.10: Hazardousness

29.11: Risk management

29.12: Styrene toxicity: Case study

29.13: Safety measures

29.14: Handling and storage

29.15: Precautions

Chapter 30: Sulfur dioxide: Risk assessment, environmental, and health hazard

Abstract

30.1: Introduction

30.2: Occurrence

30.3: Historical background

30.4: Physicochemical properties

30.5: Physiological role

30.6: Uses

30.7: Sources of contaminants

30.8: Risk assessment

30.9: Environmental effects

30.10: Hazardousness

30.11: Treatment

30.12: Risk management

30.13: Current research

30.14: Sulfur dioxide toxicity

30.15: Safety measures

30.16: Handling and storage

30.17: Precautions

Index

People also search for Hazardous Gases Risk Assessment on the Environment and Human Health 1st Edition:

    
what are the 4 types of environmental hazards
    
hazmat risk assessment
    
hazardous materials risk assessment template
    
hazardous materials risk assessment
    
environmental hazard assessment

Tags: Jaspal Singh, RD Kaushik, Malvika Chawla, Hazardous Gases, Risk Assessment