By - Jon Brown

Transmission Structure and Foundations: Materials, Standards, Analysis, and Design
July 25-26, 2016 | Denver, CO

Download PDF


The surging demand for electric power has led to upgrading, designing and building new transmission lines across North America. With the emergence of powerful computer methods for analysis and design, this demand in turn is mandating experienced line designers, structural and geotechnical engineers. With the retirement of one generation of experienced engineers and designers, and regular revisions and updates to various codes and standards, it is becoming vital for the next generation of engineers to become more familiar with the various aspects of analysis, design and installation of transmission structures and foundations. This one-and-a-half-day course is designed to introduce and provide a practical overview of important materials and standards to be considered in transmission structure and foundation design. The first day will cover structural materials and ASCE and RUS standards. The second day will focus on foundation design.

Who Should Attend

  • Recent graduates new to transmission structure and foundation design
  • Utility engineers
  • Line designers
  • Structural engineers
  • Geotechnical engineers
  • Learning Outcomes

Learning Outcomes

  1. Discuss various materials and associated ASTM, IEEE and other standards used in building transmission structures and how they are input into analysis software
  2. Identify RUS/USDA Standards for transmission lines, structures and foundations
  3. Examine the difference and process of calculating RUS design parameters vis-à-vis NESC Rules
  4. Discuss various ASCE Standards, Guidelines and Manuals of Practice for transmission structures
  5. Examine current standards for steel, concrete, lattice, guyed and composite transmission structures
  6. Analyze upcoming changes to Steel Transmission Pole Design Standard (ASCE 48)
  7. Identify various soil conditions, foundation types and foundation selection criteria used in transmission structure design
  8. Discuss in detail design of drilled concrete piers, performance criteria, detailing and software for lateral load analysis
  9. Describe direct embedment design, guy anchor design, mat footings and unconventional foundations



AP_LogoEUCI has been accredited as an Authorized Provider by the International Association for Continuing Education and Training (IACET).  In obtaining this accreditation, EUCI has demonstrated that it  complies with the ANSI/IACET Standard which is recognized internationally as a standard of good practice. As a result of their Authorized Provider status, EUCI is authorized to offer IACET CEUs for its programs that qualify under the ANSI/IACET Standard.

EUCI is authorized by IACET to offer 1.0 CEUs for this course.


Monday, July 25, 2016

8:00 – 8:30 a.m. :: Registration and Continental Breakfast

8:30 a.m. – 5:00 p.m. :: Course Timing

12:00 – 1:00 p.m. :: Group Luncheon

  • Background
  • Structural Materials
  • Standards
  • Foundations
Structural Materials
  • Wood
    • Round Wood Poles
    • Laminated Poles
    • Cross Arms and Braces
    • Protective Treatments
  • Steel
    • Angles
    • Round and Polygonal Poles
    • Davit Arms and Cross Arms
    • Base Plates
  • Bolts
    • Tower and HS Bolts
  • Concrete
    • Spun, Pre-Stressed Concrete Poles
  • Composite
    • Poles and Cross Arms
  • Guy Wires
  • Anchors
    • Log and Helical Anchors
  • Foundations
    • Direct Embedment
    • Anchor Bolts
  • Standards and Specifications
    • ASTM
    • ASCE, IEEE and RUS
  • PLS Software
    • Inputting material data in PLS programs
Overview of Standards
  • Why Standards?
  • Makeup and Administration of Standards Committees
  • Content Definitions
    • Standard
    • Commentary
    • Appendix
RUS Standards
  • Introduction to RUS
    • Difference between NESC and RUS
  • Right of Way
    • Calculation of ROW width
  • Clearances
    • Vertical Clearances to Ground and Other Objects
    • Phase Separation at Structure
    • Vertical Clearance – Transmission to Under-build
    • Horizontal Clearance
  • Load and Strength Factors (Grade B Construction)
  • Insulator Loading Limits
  • Wire Tension Limits
  • Wood Poles
    • Material Properties
    • PLS-Pole RUS Standard Structure Database
  • Steel Poles
    • Standard Class
  • Concrete Poles
    • Standard Class
  • Foundations
    • Direct Embedment Charts
    • Guy Anchors
  • Distribution Structures
Relevant Transmission Structural Standards – Summaries and Updates
  • ASCE 48-16  – Design of Steel Transmission Pole Structures
  • ASCE 10-15 – Design of Latticed Steel Transmission Structures
  • ASCE 123 – Pre-stressed Concrete Transmission Pole Structures (Manual of Practice)
  • ASCE 104 – Recommended Practice for Fiber-Reinforced Polymer Products for Overhead Utility Line Structures (Manual of Practice)
  • ASCE 91 – Design of Guyed Electrical Transmission Structures (Manual of Practice)
  • ASCE 74 – Guidelines for Electrical Transmission Line Structural Loading (Manual of Practice)
  • ASCE 7-10 – Minimum Design Loads for Buildings and Other Structures
  • Seismic Loads:  Guide to the Seismic Load Provisions of ASCE 7-10
  • ASCE 37-14 – Design Loads on Structures During Construction
  • Wood Structures

ASCE 48-16 – What to Look for in 2016


Tuesday, July 26, 2016

8:00 – 8:30 a.m. :: Continental Breakfast

8:30 a.m. – 12:00 p.m. :: Course Timing

Transmission Line Foundation Design
  • Selection of Economical Foundation Type
    • Structure Types
    • Easement Agreements
    • Design Loads
    • Subsurface Conditions
      • Geotechnical Specifications
      • Geotechnical Reports
  • Transmission Line “Foundation” Types
    • Drilled Pier Foundations
    • Direct Embed Poles
    • Guy Anchor Design (Helical, Plate, Rock Anchor)
    • Mat Foundations (Concrete or Steel Grillages)
    • Alternative Foundations
Drilled Pier Foundation Design
  • Efficient Design Methods
  • Lateral Analysis
    • Software Programs
      • CAISSON
      • Lpile
      • MFAD
    • Deflection/Rotation Criteria
      • Total vs Non-Recoverable Deflection/Rotation
    • Moment and Shear capacity design
  • Detailing of Drilled Pier
Direct Embedment Design
  • RUS Standard 10%+2ft vs Calculated Results
  • Lateral Analysis
    • Hand Calculations
      • Brom’s Method
      • RUS Bulletin 1742E-205
    • Software Programs
      • CAISSON
      • MFAD
    • Deflection/Rotation Criteria
      • Total vs Non-Recoverable Deflection/Rotation
Guy Anchor Design
  • Subsurface Conditions Dictate Anchor Type
    • Sample Calculations for Different Anchor Types
    • Safety Factors and Allowable Loads vs Ultimate Loads
  • Specifications for Anchor Proof Testing in the Field
Mat Foundation or Grillage Design
  • Traditional Lattice Foundation Design
    • Bearing Capacity Design
    • Uplift Capacity Design
    • Sliding Capacity Design
Non-Traditional Foundations Options
  • Pile Cap with Micro Piles
  • Post Tensioned Hollow Piers (P&H Foundations)
  • Full Length Anchor Bolt Cages (No Additional Longitudinal Steel)


Marlon Vogt, , PE, F.SEI, M. ASCE, Senior Engineer, Ulteig

Marlon Vogt, PE, F.SEI, M. ASCE is a Senior Engineer in the Transmission, Distribution and Communication market at Ulteig Engineers. He has more than 38 years of experience with all aspects of planning, design, and construction of 12.5 kV-345 kV distribution and transmission systems. He is a member of the Iowa Engineering and Land Surveying Examining Board, the ASCE Design of Steel Transmission Pole Structures 48-16 committee, the steering committee for ASCE ETS 2015 Transmission and Substation Structures Conference and is a Lean Six Sigma Black Belt.


Greg Parent, PE, SE, Senior Engineer, Ulteig

Greg Parent, PE, SE is a Senior Engineer in the Transmission, Distribution and Communication division of Ulteig Engineering. Greg has over 10 years of structural design experience. Greg has spent the last 7 years performing the structural design of both transmission lines and Substations. He has been involved with the design and construction of over 600 miles of high voltage Transmission Lines and has performed the structural design of over 30 substations. Greg is a registered Structural Engineer, SE, in Illinois, Hawaii, Nevada and Utah.


Sriram Kalaga, Ph.D., PE, SECB, Senior Engineer, Ulteig

Dr. Sriram Kalaga is a Senior Engineer in the Transmission and Distribution Division. He has more than 30 years of experience as a Civil- Structural Engineer and over 15 years in structural analysis and design of overhead transmission lines, structures and foundations, 69 kV to 345 kV. He has worked on projects associated with utilities such as BPA, Xcel Energy, MEC, ITC, SCL, KAMO Power, M & A Power, Conectiv, Empire, AECC, AVEC, JEA and AMP. As a principal structural engineer, Dr. Kalaga was responsible for overseeing the analysis and design of overhead transmission line projects, which included steel, wood, concrete and composite elements as well as new lines, upgrades, fiber optic additions, line ratings, development of design data and criteria. Dr. Kalaga has also published over 35 papers on various Civil-Structural Engineering topics, in peer-reviewed Journals as well as Conferences. He has co-authored a textbook on analysis and design of transmission line structures and foundations. He is currently serving as a guest editor of an International Civil Engineering Journal and coordinating a special issue on transmission structures and foundations. Dr. Kalaga is a registered professional engineer in 10 states.


Hyatt Regency Denver Tech Center
7800 East Tufts Avenue
Denver, CO 80237

To reserve your room, please call 1-303-779-1234 or book online at
Please indicate that you are with the EUCI group to receive the group rate.


The room rate is $179.00 single or double plus applicable taxes.


A room block has been reserved for the nights of July 24 – 25, 2016.


Make your reservations prior to July 1, 2016. There are a limited number of rooms available at the conference rate. Please make your reservations early.


Event Standard RateAttendees

By clicking Accept or closing this message, you consent to our cookies on this device in accordance with our cookie policy unless you have disabled them. more information

By clicking Accept or closing this message, you consent to our cookies on this device in accordance with our cookie policy unless you have disabled them. You can change your cookie settings at any time but parts of our site will not function correctly without them. We use cookies during the registration process and to remember member settings.