- •Introduction
- •12. Source and ecological consequences of
- •150 Kilocalorie per hour (174 w).
- •Ions of one sign, when all the electrons of both signs liberated in a volume of air of
- •Is removed for maintenance and not replaced people are again at risk.
- •Inert gas – fades burning;
- •33. Chemical accident
- •Inflammation.
- •In its destroying force, but also in suddenness of its origin. Mudflow can be of
- •Introduction
Introduction
3
Chapter 1 - THEORY OF ECOLOGY
4
1. ECOLOGY TERMS
4
2. ECOLOGY LAWS
4
3. NATURAL ENVIRONMENT
4
4. CLASSIFICATION OF NATURAL RESOURCES
5
5. ECOLOGICAL STANDARDIZATION
6
6. CLASSIFICATION OF ENVIRONMENT CONTAMINATION 6
Chapter 2 - ENVIRONMENTAL PROTECTION
8
7. AIRBORNE CONTAMINATION
8
8. MEASURING AIRBORNE CONCENTRATIONS AND AIR
PROTECTION
9
9. EXPOSURE STANDARDS
10
10. WATER POLLUTION AND PROTECTION
11
11. MONITORING WATER POLLUTION
12
12. SOURCE AND ECOLOGICAL CONSEQUENCES OF
LITHOSPHERE POLLUTION
16
13. KNOWLEDGE OF NITRATES
17
14. METHODS FOR MONITORING NITRATE CONCENTRATION19
15. METEOROLOGICAL CONDITIONING
21
16. METEOROLOGICAL STANDARDS
22
17. METEOROLOGICAL MONITORING
23
18. ACOUSTIC CONTAMINATION
25
19. ELECTROMAGNETIC CONTAMINATION
27
20. CHARACTERISTICS OF IONIZING RADIATION
28
21. UNITS OF RADIATION
29
Chapter 3: RISK MANAGEMENT
30
22. SAFETY TERMS
30
23. ACCIDENT THEORIES
30
24. HAZARD IDENTIFICATION
31
25. RISK ASSESSMENT
32
26. RISK CONTROL
33
Chapter 4: EMERGENCY MANAGEMENT
35
27. KNOWLEDGE OF EMERGENCY
35
29. FIRE SAFETY
37
30. THEORY OF BURNING
39
31. FIRE AND EXPLOSION RISK INDEXES
39
32. FIRE AND EXPLOSION RISK AREA CATEGORIES
40
32. NUCLEAR ACCIDENT
41
33. CHEMICAL ACCIDENT
44
34. NATURAL EMERGENCY SITUATIONS
47
Chapter 5 – FIRST AID
51
REFERENCES
55