About the course:

This course begins by introducing you to the world of bridges through a classification of bridges and a description of various structural systems including their load resisting mechanisms. The focus thereafter shifts to highway girder bridges, where you learn about their main structural components, applicable code design philosophies and design considerations. Next and the most significant part of this course is gaining knowledge on how multidiscipline influences and constructability aspects shape the development of bridge design. Thorough treatment is given to highway geometrics, span-curvature, super-elevation transitions, traffic management, hydrotechnical and geotechnical disciplines with guidance on how to address these challenges. Besides direction on how to configure constructible bridge systems, the student is trained through step-by-step examples in developing feasible erection concepts for concrete and steel girders. This course would be particularly useful for aspiring and young bridge engineers and those that have lacked work experience in multi-disciplinary teams and constructability aspects.

  • Course Duration: 6 weeks (at 5 hours/week effort)

  • Suitability: 0-3 years of Bridge Engineering Experience

  • 60 Lessons (13 hours of instruction)

  • Multiple Quizzes to Reinforce Learning (700+ questions bank)

  • FREE Access to Course Community Discussion Forum

  • Certificate for Successful Completion (8 PDH/CPD Hours)

Course curriculum

  • 1

    Introduction to Bridge Engineering

    • Orientation

    • PRESENTATION: Overview of Bridge Design

    • Design Overview and Code Philosophy

    • QUIZ: Design Overview & Code Philosophy

    • Bridge Design Limit States

    • Sound Design Practices

    • QUIZ: Limit States and Sound Design Practices

    • PRESENTATION: Bridge Components

    • BACKGROUND TUTORIAL (Optional): Basics of Prestressing

    • Bridge Components (Superstructure)

    • QUIZ: Bridge Components (Superstructure)

    • Bridge Components (Bearings and Joints)

    • QUIZ: Bridge Components (Bearings and Joints)

    • Bridge Components (Substructure and Restraining Elements)

    • QUIZ: Bridge Components (Substructure and Restraining Elements)

    • PRESENTATION: Bridge Structural Systems

    • Bridge Structural Systems (Flexural)

    • QUIZ: Bridge Structural Systems (Flexural)

    • Bridge Structural Systems (Axial)

    • QUIZ: Bridge Structural Systems (Axial)

    • PRESENTATION: Conceptual Design (A Primer)

    • Conceptual Design (A Primer)

    • QUIZ: Conceptual Design (A Primer)

    • PRESENTATION: Procurement Models

    • Procurement Models

    • QUIZ: Procurement Models

  • 2

    Design, Multidiscipline Influences & Constructability

    • PRESENTATION: Design Considerations

    • Design Considerations (Superstructure)

    • QUIZ: Design Considerations (Superstructure)

    • Design Considerations (Substructure)

    • QUIZ: Design Considerations (Substructure)

    • PRESENTATION: Critical Loads

    • Critical Loads (Vertical)

    • QUIZ: Critical Loads (Vertical)

    • Critical Loads (Horizontal)

    • QUIZ: Critical Loads (Horizontal)

    • PRESENTATION: Highway Geometrics

    • Geometrics (Horizontal Alignment)

    • QUIZ: Horizontal Alignment

    • Geometrics (Span Curvature)

    • QUIZ: Span Curvature

    • Geometrics (Vertical Alignment)

    • QUIZ: Vertical Alignment

    • PRESENTATION: Traffic and Utilities Management

    • Traffic and Utilities Management

    • QUIZ: Traffic and Utilities Management

    • PRESENTATION: Hydrotechnical & Geotechnical

    • Hydrotechnical

    • Geotechnical

    • QUIZ: Hydrotechnical & Geotechnical

    • PRESENTATION: Constructability Considerations

    • Constructability (Access, Shipping & Erection)

    • QUIZ: Constructability (Access, Shipping & Erection)

    • Constructability (Concrete Girders)

    • QUIZ: Constructability (Concrete Girders)

    • Constructability (Steel Girders)

    • TUTORIAL: Estimate Crane Size for Crane Assisted Launch

    • QUIZ: Constructability (Steel Girders)

  • 3

    CERTIFICATION TESTS

    • TEST A

    • TEST B

  • 4

    Test Explanations

    • Test Answers & Explanations

Instructor(s)

Principal Instructor

Saqib Khan

Saqib Khan has 20 years of leadership, management, design, and delivery experience with a focus on bridge engineering. He has worked with both private and public sectors and has gained extensive technical experience through conducting analysis and design, as well as inspecting, assessing, and supervising the construction of bridges. He has specialized knowledge of seismic design and analysis including retrofit and rehabilitation and serves as a member of the Canadian Bridge Code Sub-Committee for Seismic Design. Saqib is skilled at innovative solutions for bridge structures located in seismic areas. At Spannovation School, he is engaged in disseminating educational courses in bridge engineering with the goal of teaching the art of developing innovative and practical solutions; particularly in severe seismic situations.

Principal Instructor

Raj Singh

Over his 20 year career, Raj Singh has successfully delivered bridge projects from inception to completion. He has provided management, analysis, design, and construction engineering on a wide variety of bridge types, including pedestrian, highway, and long span. He has experience in projects procured via alternative delivery such as design-build and P3s. He works closely with contractors in bridge erection, including heavy lifting, jacking, sliding, and incremental launching. He has demonstrated an ability to develop practical value solutions tailored to specific site constraints that save construction costs. At Spannovation School, he is engaged in disseminating educational courses in bridge engineering with the goal of teaching the art of developing innovative, practical, and context-sensitive solutions.

Course Fee

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FAQ

If you cant find your answer here, feel free to email info@spannovation.ca

  • What subject matter does Context Sensitive Conceptual Bridge Design cover?

    Context-Sensitive Conceptual Bridge Design (CSCBD) is a 3-part course series designed to present a holistic approach to developing bridge concepts for highway girder bridges that best fit the intended context. It teaches the student the art of finessing influences from technical, multi-discipline, construction, and site challenges in crafting solutions that achieve the owner’s objectives. Feasible solutions are quantified and evaluated in relative terms to home in on the preferred concept. Constructability is an integral consideration in the development of practical and cost-effective conceptual designs. This course not only describes common construction methodologies for typical highway bridges but also walks you through rigorous step-by-step examples (but note that this is not a construction engineering course). Since the focus of this course is at the conceptual stage, it stays relatively high-level concerning analysis and deep mathematical formulations. Instead, it encourages first principle, rules-of-thumb and hand-calculation based approach in sizing components. There is a module presented by Engineers and Geoscientists of British Columbia (EGBC) on professional practice and quality management guidelines in CSCBD-2.

  • Whom is Context Sensitive Conceptual Bridge Design suited for?

    From fresh entrants to candidates in the first phase of their bridge engineering career (0-9 years) will find this course extremely beneficial. Specifically, our recommended suitability in terms of bridge engineering experience is 0-3 years for CSCBD-1, 0-6 years for CSCBD-2, and 0-9 years for CSCBD-3. This course series will give you the mindset and skills to accelerate your development as a top-performing bridge engineer! For the engineers who are currently looking to enter the bridge engineering field, this course starts by providing an introduction to the design philosophy that bridge codes follow, the various bridge elements and their functions, and the primary design considerations. In essence, we do not assume that the participants taking this course have much prior knowledge about bridges and bridge engineering. We do, however, expect a basic understanding of principles taught within a typical 4-year Bachelors’ degree in Civil Engineering. At the same time, engineers in the first phase of their careers (0-9 years) will find this beneficial as this holistic approach to conceptual designs is rarely inculcated in their professional training at design offices (due to production pressures).

  • How will Context Sensitive Conceptual Bridge Design help my career growth?

    If you assess the bridge engineering landscape, you will find only a handful of few that take the lead in developing concepts. The majority is engaged in production engineering or putting together calculations and drawings. Our flagship course has been developed to address the statement – “ Most engineers can design but only a few can create meaningful concepts”. How do some engineers develop skills to synthesize concepts from scratch while others don’t? First, we believe that experience and creativity aside, it’s a MIND-SET! And second, even with the right mindset, it takes years of good mentorship to pick up these skills. It takes so long because it is not possible to concisely impart this training in a typical consulting environment due to productivity pressures. In many ways, it’s also better for a business to have a few queen bees and many workers. In the end, many of us feel the frustration of not being able to realize our full potential but just can't pinpoint the cause. Therefore, we have poured our years of experience in bridge concept development, analysis, design, mentoring of teams, and erection engineering into this course series with one goal in mind – to have you tuned to the right mind-set and acquire this specialized training under one concise umbrella!

  • Is it advisable to first learn about bridge construction techniques prior to bridge design?

    We don’t think there is a sequence you need to follow for your learning in the field of bridge engineering. If you would like to become a bridge design engineer, the core of the subject would be bridge design with knowledge of construction techniques as an important supplement. Constructability including construction methodologies is a critical aspect of becoming a good bridge design engineer. However, note that there are bridge construction engineers who specialize in developing construction methodologies. Raj has been engaged in both design as well as construction engineering, which is rare as one generally tends to get an initial opportunity in one or the other (mostly design as there are many more such jobs) and one tends to stick with it. Therefore, we have injected a balanced dose of constructability knowledge required by a design engineer during conceptual design as a part of this course (Pease see free preview lesson in Module B).

  • Will you issue completion certificates for the courses along with CPD/PDH hours?

    Completing the full course series will provide 3.2 Continuing Education Units (CEUs) and 32 Professional Development Hours (PDHs). CSCBD-1 has an allocation of 8 PDHs. These will be noted on the completion certificate issued to all registrants who have achieved the required passing grade in the Module Tests, Final Test, and paid the full dues for the course.

  • What is the Course Community Fourm?

    The course community forum is an open platform to promote discussion for students enrolled in Context-Sensitive Conceptual Bridge Design. You can share your learning experience, create posts, ask questions, and interact with colleagues. Posts can include an image, video, or a file link. You will be able to view and comment on existing posts. This feature will enhance your learning experience.

  • Will we be able to keep the course material for future reference?

    The course presentations will be available for download as you work through the course material. The course material is for you to retain for your future reference.

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