1. Trench and Excavation Search and Rescue

2. Objectives (1 of 3)
Identify the need for trench emergency search and rescue operations.
Describe various types of trench emergencies.

3. Objectives (2 of 3)
List general hazards associated with a trench emergency incident.
Describe the resources needed to conduct a trench collapse search and rescue operation.

4. Objectives (3 of 3)
Describe response planning and incident management requirements related to a trench emergency search and rescue incident.
Describe site control operations at a trench collapse incident.

5. Terms Excavation: Trench:
Any human-made cut, cavity, trench, depression made in earth that is wider than it is deep
Trench:
Excavation that is narrow in relation to its width
Depth greater than width; width not greater than 15 feet (4.6 m)

6. Trench Anatomy

7. Major Occupational Hazards
Cave-ins
Underground utility exposure
Atmospheric hazards
Material or equipment falling into trench

8. Types of Trench Emergencies
Cave-ins
Spoil-pile slide
Falling rocks
Shoring collapse
Other causes

9. Cave-in (1 of 2)
Separation of a mass of soil or rock material from side of excavation or trench
Loss of soil from under trench shield or support system
May entrap, bury, or otherwise injure and immobilize person

10. Cave-in (2 of 2)
More fatal than other types of construction related accidents
Often related to lack of or inadequate support systems
Primary hazard of trench work

11. Trench Collapse Patterns

12. Spoil Pile Contains excavated soil and materials
Placed in mound beside open trench:
Must be placed minimum of 2 feet (0.6 m) away from open edge per OSHA
May slide into trench and cause collapse

13. Falling Rocks May break loose from trench wall and strike workers
May or may not cause collapse
May render victim unconscious; trench must be stabilized before victim may be accessed

14. Shoring Designed to support sides of excavation
May collapse if left in place for long time (destabilize)
Requires daily inspection by “competent person” on construction sites per OSHA

15. Other Causes of Trench Emergencies
Overturned construction equipment falling into trench
Broken utility lines (electric, water, sewage, or natural gas)
Unanticipated atmospheric hazards (build-up of methane gas)
Medical emergencies unrelated to trench

16. Protection Against Trench Emergencies
OSHA requires trenches be protected from collapse by:
Shoring system
Shielding (trench box)
Sloping trench walls
Benching system

17. Shielding System
Courtesy of Robert Rhea

18. Sloping System
Uses inclined excavating to form sides that incline away from excavation to prevent cave-in
Bases angle of incline on various factors:
Soil type
Environmental conditions of exposure
Application of surcharge loads

19. Benching System
Involves excavating side of trench to form one or more horizontal levels or steps, usually with vertical or near-vertical surfaces between levels

20. Trench Soil Properties (1 of 3)
Trench walls are columns of soil weighing 100 pounds (45.4 kg) per cubic foot for each foot of depth
10 foot (3 m) trench = 1-foot-square (0.1 m2), 10-feet-tall (3 m) column
Weighs 1000 pounds (453.6 kg)
Exerts vertical force of 1000 pounds (453.6 kg) per square foot

21. Trench Soil Properties (2 of 3)
Soil column also exerts horizontal force in all outward directions equal to ½ vertical force.
Column in 10-foot (3 m) trench exerts outward force at base of 500 pounds (226.8 kg) per square foot (0.09 m2)
Outward force increases with trench depth.

22. Trench Soil Properties (3 of 3)

23. Three Phases of Trench Collapse (1 of 2)
1: Trench wall moves into trench at its lowest level near bottom, creating overhang of soil at top of
2: Most of overhanging soil falls into trench, causing smaller, unsupported cantilever of soil near trench lip.
3: Trench lip fails.

24. Three Phases of Trench Collapse (2 of 2)

25. Responder Tips
Time may elapse between collapse phases, placing responders and victims at risk of exposure to a secondary collapse.
Partially buried victim may become totally buried before shoring is in place.
Responders should never enter a unprotected trench, regardless of circumstances.

26. Trench Collapse Contributing Factors (1 of 4)
Narrow roadways:
Traffic causes superimposed loads on trench walls.
Vibration:
Road traffic, heavy construction equipment, rail traffic, and other vibration sources increase collapse risk.

27. Trench Collapse Contributing Factors (2 of 4)

28. Trench Collapse Contributing Factors (3 of 4)
Weather:
Heavy rain can flood trench.
Subsurface water seepage can undercut trench walls.
Saturated soil can cause wall instability.
Drought can dry out trench and make it unstable.
Freezing, thawing cycles can undermine

29. Trench Collapse Contributing Factors (4 of 4)
Soil:
Previously disturbed soil is unstable.
Intersection of two or more trenches creates unstable soil situations, particularly at the corners.

30. OSHA Soil Classifications (1 of 2)
Stable rock: natural mineral matter with vertical sides that remain stable when exposed to lack of support
Type A: cohesive soils and cemented soils:
Clay, silty clay, sandy clay, hardpan

31. OSHA Soil Classifications (2 of 2)
Type B: cohesive soil with less compressive strength than Type A:
Angular gravel, silt, silt loam
Type C: sandy soils, sandy loam, gravel soils, submerged soils, or soils where water is freely flowing from trench walls

32. “Competent Person” Categorizes Soil on Scene
Visual tests:
Looking at trench walls
Observing spoil material as removed
Manual tests:
Thumb penetration
Plasticity tests to determine soil’s unconfined compressive strength

33. Soil Layering (1 of 2)
Dangerous collapse hazard when soil types inclined downward toward trench floor
Areas where layers make contact lubricate nonhomogenous soil types, causing a slide.

34. Soil Layering (2 of 2)
Courtesy of Cecil “Buddy” Martinette.

35. Applicable Standards (1 of 2)
NFPA 1006, Standard for Technical Rescuer Professional Qualifications for technician-level
NFPA 1670, Standard on Operations and Training for Technical Search and Rescue Incidents:
All responders must meet awareness-level requirements for confined-space search, rescue, and general requirements in Chapter 4 of NFPA 1670.

36. Applicable Standards (2 of 2)
OSHA Standard , 651, and 652:
Identifies safety requirements for workers who perform excavation and trench work
Provides resource for responders because it identifies hazards, training requirements, hazard control requirements, trench stabilization options, other safety requirements

37. Search and Rescue Identify injured victims who escaped.
Extricate partially buried victims seen from safe area outside trench.
Locate totally buried victims.

38. Equipment Resources (1 of 2)
Soil removal hand tools:
Entrenching shovels, small buckets, trowels, posthole diggers
Chipping and cutting tools:
Pneumatic chisels, electric rotary hammers, demolition hammers, hand/power saws, knives

39. Equipment Resources (2 of 2)
Lifting tools:
Air bags, slings, timbers, rigging, bolting devices
Specialized tools:
Mechanical vacuum devices, heavy digging equipment

40. Lifting Resources
Courtesy of Cecil “Buddy” Martinette.

41. Specialized Resources
Courtesy of Robert Rhea

42. Personnel Resources EMS at both BLS and ALS level
Hazardous materials teams
Utility company workers
Law enforcement

43. Incident Management Objectives
Evaluate the scene and identify potential victims and location.
Initiate operations to minimize hazards to operating personnel and trapped victims.
Effectively search for total burial victims.
Effectively rescue and remove trapped victims.
Minimize further injury to victims during search, rescue, and removal operations.

44. ICS Management Personnel
Incident commander
Rescue group supervisor
Planning section chief
Logistics section chief
Safety officer
Public information officer

45. IAP Includes Multiple rescue options Two or more functional work areas
Plan for coordination with EMS
Awareness that tactical-level officers trained in manage trench and excavation emergencies may be necessary

46. Rescue Officer Responsibilities
Anticipating tool usage and allowing sufficient space to perform tool operations and patient packaging
Reassessing shoring system competency throughout rescue
Ensuring existing shoring system not disrupted during rescue activities
Recommending additional staffing, specialized equipment to IC

47. Needs Assessment
Determines jurisdiction’s vulnerability to trench and excavation emergency events
Includes written procedures to request mutual aid or private sector resources
Includes organizations’ personnel capabilities, such as level of training
Dispatch procedures

48. Initial Hazard Assessment (1 of 3)
Position response vehicles 100 feet (30.5 m) from collapse area.
Cordon off the rescue site with barrier tape.
Remove unnecessary individuals.
Locate the work-site foreman.
Try to determine type of collapse, number of victims, and if victims are partially or totally buried.

49. Initial Hazard Assessment (2 of 3)
Mark all known and approximate victim locations.
Determine time period of when the collapse occurred.
Determine the presence of underground utilities.
Assess medical requirements of trapped or injured victims.
Avoid approaching the trench or spoil pile.

50. Initial Hazard Assessment (3 of 3)
Courtesy of Captain David Jackson, Saginaw Township Fire Department

51. Awareness-Level Responders (1 of 3)
Initiate the ICS.
Set up control zones with barrier tape.
Deny entry into hazard zone.
Identify locations of trapped victims.
Mark potential locations of total-burial victims.
Gather incident information from bystanders or coworkers.

52. Awareness-Level Responders (2 of 3)
Lower helmet to a visible, mobile victim.
Lower oxygen mask attached to oxygen tubing to victim and instruct how to use.
Request response from appropriate utility companies, if necessary.
Lower ladder to victims who are mobile and not trapped, if safe.

53. Awareness-Level Responders (3 of 3)
Assist operations- or technician-level responders by serving as tool/equipment runners or helping to remove spoil pile.
Assist with tarp or tent placement.
Establish water diversion systems.
Assist operations- or technician-level rescuers with de-watering activities.

54. Potential Secondary Collapse Signs (1 of 2)
Fissures parallel to or in face of excavation
Subsidence of edge of trench
Overhanging loose cantilevers of trench wall
Bulging of trench walls
Proximity of spoil pile to trench
Heaving or boiling of trench floor
Spalling of face of trench
Water in the trench

55. Potential Secondary Collapse Signs (2 of 2)

56. Trench Collapse Hazards (1 of 2)
Water:
Flooding, seeping groundwater, freezing/thawing
Soil:
Mixing soil types
Superimposed loads:
Causing secondary collapse

57. Trench Collapse Hazards (2 of 2)
Broken or damaged underground utilities:
Causing electrocution, fire, flooding, drowning, secondary collapse
Unanticipated atmospheric hazards:
Leaking hazardous materials from underground storage tanks or pipelines or spreading methane gas and other toxic gases

58. Minimize Risks at Trench Collapse (1 of 2)
Recognize and avoid trenching hazards.
Limit exposure to hazardous areas by denying entry into those sites.
Control vibration sources by shutting down heavy vibration sources located within 500-feet radius (152.4 m) of trench

59. Minimize Risks at Trench Collapse (2 of 2)

60. Patient Care Considerations (1 of 2)
Provide care for walking wounded.
Request adequate EMS resources.
Assess and mitigate immediately life-threatening hazards.
Mark victim’s location and lower a rope adjacent to victim.
Provide initial medical and protective support for accessible victims without entering trench.

61. Patient Care Considerations (2 of 2)
Provide initial medical and protective support for accessible victims without entering unprotected trench area.
Provide O2 to conscious, partially buried victim.
Lower helmet or hard hat to mobile victim.

62. Clues for Locating Buried Victim
Interview information
End of pipe string
Grease can, brush used to lubricate concrete pipe
Beverage bottles, drinking cups
Laser targets and grade poles
Cat or tire tracks
Large-diameter pipe

63. Summary Trench rescue events vary in size and complexity.
Only responders trained in trench rescue should enter excavation area.
ICS is critical to trench collapse management.
Initial hazard control may include removing unnecessary personnel, establishing control zones, installing barrier tape, and controlling vibration sources.