On-Demand Course

View Important Policies and System Requirements for this course

Interested in registering 5 or more engineers for a course? Contact us for information and rates.

INSTRUCTOR: 
Timothy L. Parker, P.E., PMP, M.ASCE

This course is sponsored by the Construction Institute.

Purpose and Background

The main intent of this course is to familiarize practitioners with the codes and standards that apply to alternative load handling equipment, specialized transport equipment, and rigging safety and how to incorporate this information into the preparation of safe and practical lift and/or transportation plans. Familiarity with alternative load handling equipment or specialized transport equipment is not required. Participants in this course should be familiar with rigging hardware. All concepts can be easily followed by any professional of the A/E industry.

Benefits and Learning Outcomes

Upon completion of this course, you will be able to:

  • Analyze alternative load handling equipment capacity charts, such as hydraulic gantry systems, jacking systems, and skidding systems, and be able to extract needed information to prepare a lift plan.
  • Analyze specialized transport equipment capacity charts and be able to extract needed information to prepare a transportation plan.
  • Prepare a detailed, safe, and practical rigging plan by understanding the uses and limitations of the major types of rigging and rigging hardware, calculating the actual loads applied to the rigging, and identifying the proper rigging and rigging hardware to be used for lifting different loads.
  • Analyze load handling equipment configurations and special transport equipment configurations to compute ground bearing pressures.
  • Develop load spreading methods to distribute ground bearing pressures to acceptable values.
  • Develop loading plans and securement methods for barge, ship, or rail transport.
  • Prepare a complete, safe, and practical lift plan incorporating load handling equipment capacities, rigging plan, site conditions, and ground bearing requirements.
  • Prepare a complete, safe, and practical transportation plan incorporating specialized transport equipment capacities, travel path conditions, and ground bearing requirements.

Assessment of Learning Outcomes

Achievement of the learning outcomes by attendees will be assessed through (3) exams.

Who Should Attend?

  • Consultant engineers
  • A/E contractors
  • Safety officials
  • Lift directors
  • Lift planners
  • Lift inspectors

How to Earn your CEUs/PDHs

This course is worth 2.4 CEUs/24 PDHs. To receive your certificate of completion, you will need to complete (3) exams and receive a passing score of 70% or higher.

How do I convert CEUs to PDHs?

1.0 CEU = 10 PDHs [Example: 0.1 CEU = 1 PDH]

Course Outline

Week 1: Introduction to ASME and OSHA Codes and Standards for Alternative Lifting Methods
Course Introduction & Week Introduction
ASME P30.1 Planning for Load Handling Activities - Introduction
ASME P30.1 Planning for Load Handling Activities - Considerations and Categorization
Learning Exercise - ASME P30.1 Pre-Planning
ASME P30.1 Planning for Load Handling Activities - Standard Lift Plan Requirements
ASME P30.1 Planning for Load Handling Activities - Critical Lift Plans Requirements
ASME B30.1 Jacks, Industrial Rollers, Air Casters, and Hydraulic Gantries
29CFR1926.1400 - OSHA - Cranes and Derricks in Construction
Learning Exercise - ASME B30.1 and OSHA 1926.1400 Considerations
Conclusion

Week 2: Introduction to Codes and Standards for Heavy Transportation
Introduction
FMCSA 393 Subpart I Protection Against Shifting and Falling Cargo
AAR Open Top Loading Rules Manual - 2017
Learning Exercise - Road and Rail Transport
IMO Code of Safe Practice for Cargo Stowage and Securing Annex 13
GL Noble Denton Technical Policy Board Guidelines for Loadouts
GL Noble Denton Technical Policy Board Guidelines for Marine Transportation
GL Noble Denton Guidelines for Marine Lifting Operations
Learning Exercise - Sea and Water Transport
Conclusion

Week 3: Center of Gravity of Loads and Proper Rigging Selection
Introduction
Center of Gravity
Rigging Arrangement and Rigging Types
Rigging Loads
Learning Exercise - CG and Rigging Loads
Proper Rigging
Gross Loads
Rigging Plan
Learning Exercise - Rigging Plan
Conclusion

Week 4: Jacking, Skidding, and Rolling Systems
Introduction
Jacking Systems Components and Operations
Jacking System Loads and Cribbing
Learning Exercise - Jacking Systems
Cribbing & Skidding Systems-Components and Operations
Skidding Systems Loads
Rolling Systems
Learning Exercise - Skidding and Rolling Systems
Conclusion
Exam: Weeks 1-4

Week 5: Hydraulic Gantry Systems (Part 1)
Introduction
Gantry System Components
System setup
Components/Hydraulic System
Gantry Systems Applications - Basic
Gantry Systems - Advanced
Load and Load Combinations
Learning Exercise - Applications and Load Combinations
Conclusion

Week 6: Hydraulic Gantry Systems (Part 2)
Introduction
Gantry System Stability
Design/Evaluation of Components (Part 1)
Design/Evaluation of Components (Part 2)
Learning Exercise - Gantry System Stability and Design
Design/Evaluation of Components (Part 3)
Lift Planning
Lift Operations
Learning Exercise - Case Study 1
Conclusion

Week 7: Road and Rail Transportation
Introduction
Roadway Cargo
Dolly Transporters
Dolly Loads
Learning Exercise - Roadway Transportation
Railway Transportation
Railcar Ballasting
Learning Exercise - Railway Transportation
Conclusion

Week 8: Hydraulic Platform Transporters
Introduction
Components/operation of hydraulic platform transporters
3-point and 4-point systems
Stability areas
Learning Exercise - Components and stability areas
External Forces
Lashing/Securing
Learning Exercise - External Forces and Securement
Conclusion
Exam: Weeks 4-8

Week 9: Ship and Barge Transport
Introduction
IMO Annex 13
Barge concepts and stability
Learning Exercise - Calculations Part 1
Barge Loadouts
Marine Lifting Operations
Marine Transport
Learning Exercise - Calculations Part 2
Conclusion

Week 10: Derricks, Floating Cranes, Lift Towers, and Upending Operations Introduction
Introduction
Derricks
Floating Cranes
Lift Towers
Learning Exercise - Derricks, Floating Cranes, Lift Towers
Upending Operations - Concepts
Upending Operations - Tailing Frames
Upending Operations - Gantries
Learning Exercise - Upending Loads
Conclusion

Week 11: Ground Bearing and Load Spreading
Introduction
Ground Bearing Basics
Ground Bearing Calculations - Alternative Lifting Equipment
Ground Bearing Calculations - Specialized Transport Equipment
Learning Exercise - Ground Bearing
Load Spreading
Crane Mats
Learning Exercise - Load Spreading
Conclusion

Week 12: Lift and Transportation Plans for Alternative Lifting Methods and Specialized Transport Equipment
Introduction
ASME P30.1 Requirements
Lift Data Sheets
Rigging Diagrams
Learning Exercise - Lift Plan Data
Lift Diagram
Transportation Data Sheet
Transportation Diagram
Learning Exercise - Case Study 2
Conclusion
Exam: Weeks 9-12