FHWA-NHI-135056 Culvert Design

 

COURSE DESCRIPTION:
The National Highway Institute's (NHI) 3-day Culvert Design course provides participants with an in-depth, hands-on understanding of how to hydraulically size and design a highway culvert. The course covers a range of design topics, including allowable headwater at the inlet, permissible outlet velocity, energy dissipation measures, aquatic organism passage, mechanisms of culvert failures, and repair and rehabilitation options.

Material for this 3-day course is primarily derived from the Hydraulic Design Series No. 5 (HDS 5), Hydraulic Design of Highway Culverts textbook, which is provided to participants. Additional references used throughout this course include Hydraulic Engineering Circular No. 14 (HEC-14); Hydraulic Design of Energy Dissipators for Culverts and Channels; HEC-26, Culvert Design for Aquatic Organism Passage; and HEC-9, Debris Control Structures, Evaluation, and Countermeasures. Course topics include culvert design principles and procedures and debris control structures. Throughout the course, participants engage in a number of workshops where problems are completed, both long-hand and with a computer using the FHWA HY-8 Culvert Hydraulic Analysis and Design Program. Additionally, a portable hydraulic flume is set up in the classroom for the participants to observe hydraulic principles associated with various culvert configurations, aquatic organism passage features, and culvert linings.

At the end of this course, participants will be able to apply fundamental engineering concepts, methods, and the HY-8 computer program to analyze and design culvert crossings meeting a variety of hydraulic and environmental design criteria.

Prior to taking this course, participants are strongly encouraged to enroll in the Web-based training (WBT) entitled, 135091 Basic Hydraulic Principles Review. Mastery of the concepts covered in this WBT is important to successful completion of the Instructor-led training.

OUTCOMES:
Upon completion of the course, participants will be able to:

Justify the importance of culvert design
Explain the overall culvert design process
Summarize basic hydraulic concepts
Discuss factors influencing hydraulic performance and design of culverts
Explain how to calculate culvert outlet velocity
Apply nomographs and computer methods to design a roadway culvert
Design culverts that meet aquatic organism passage (AOP) requirements
Assess impacts of repair and rehabilitation of culverts on hydraulic performance
Design energy dissipator and debris control structures for culverts
Design culverts for various situations
Discuss culvert failures and how they can be prevented

TARGET AUDIENCE:
This intermediate-level training course is intended for hydraulic engineers, transportation engineers, and highway designers involved with roadway drainage and culvert design. Environmental scientists with an interest in aquatic organism passage may also benefit from participation in this course.

If you have questions about this NHI training, please contact NHI at nhicustomerservice@dot.gov or 877.558.6873.

PREREQUISITES:
Participants should have some drainage design experience or successful completion of either a) college-level fluid mechanics coursework or b) Introduction to Highway Hydraulics (FHWA-NHI-135065).

Prior to taking this course, participants are strongly encouraged to enroll in the Web-based training (WBT) entitled, NHI 135091 "Basic Hydraulic Principles Review." Mastery of the concepts covered in this WBT is important to successful completion of the Instructor-led training.

COURSE DESCRIPTION:
The National Highway Institute's (NHI) 3-day Culvert Design course provides participants with an in-depth, hands-on understanding of how to hydraulically size and design a highway culvert. The course covers a range of design topics, including allowable headwater at the inlet, permissible outlet velocity, energy dissipation measures, aquatic organism passage, mechanisms of culvert failures, and repair and rehabilitation options.

Material for this 3-day course is primarily derived from the Hydraulic Design Series No. 5 (HDS 5), Hydraulic Design of Highway Culverts textbook, which is provided to participants. Additional references used throughout this course include Hydraulic Engineering Circular No. 14 (HEC-14); Hydraulic Design of Energy Dissipators for Culverts and Channels; HEC-26, Culvert Design for Aquatic Organism Passage; and HEC-9, Debris Control Structures, Evaluation, and Countermeasures. Course topics include culvert design principles and procedures and debris control structures. Throughout the course, participants engage in a number of workshops where problems are completed, both long-hand and with a computer using the FHWA HY-8 Culvert Hydraulic Analysis and Design Program. Additionally, a portable hydraulic flume is set up in the classroom for the participants to observe hydraulic principles associated with various culvert configurations, aquatic organism passage features, and culvert linings.

At the end of this course, participants will be able to apply fundamental engineering concepts, methods, and the HY-8 computer program to analyze and design culvert crossings meeting a variety of hydraulic and environmental design criteria.

Prior to taking this course, participants are strongly encouraged to enroll in the Web-based training (WBT) entitled, 135091 Basic Hydraulic Principles Review. Mastery of the concepts covered in this WBT is important to successful completion of the Instructor-led training.

OUTCOMES:
Upon completion of the course, participants will be able to:

Justify the importance of culvert design
Explain the overall culvert design process
Summarize basic hydraulic concepts
Discuss factors influencing hydraulic performance and design of culverts
Explain how to calculate culvert outlet velocity
Apply nomographs and computer methods to design a roadway culvert
Design culverts that meet aquatic organism passage (AOP) requirements
Assess impacts of repair and rehabilitation of culverts on hydraulic performance
Design energy dissipator and debris control structures for culverts
Design culverts for various situations
Discuss culvert failures and how they can be prevented

TARGET AUDIENCE:
This intermediate-level training course is intended for hydraulic engineers, transportation engineers, and highway designers involved with roadway drainage and culvert design. Environmental scientists with an interest in aquatic organism passage may also benefit from participation in this course.

If you have questions about this NHI training, please contact NHI at nhicustomerservice@dot.gov or 877.558.6873.

PREREQUISITES:
Participants should have some drainage design experience or successful completion of either a) college-level fluid mechanics coursework or b) Introduction to Highway Hydraulics (FHWA-NHI-135065).

Prior to taking this course, participants are strongly encouraged to enroll in the Web-based training (WBT) entitled, NHI 135091 "Basic Hydraulic Principles Review." Mastery of the concepts covered in this WBT is important to successful completion of the Instructor-led training.

COURSE DESCRIPTION:
The National Highway Institute's (NHI) 3-day Culvert Design course provides participants with an in-depth, hands-on understanding of how to hydraulically size and design a highway culvert. The course covers a range of design topics, including allowable headwater at the inlet, permissible outlet velocity, energy dissipation measures, aquatic organism passage, mechanisms of culvert failures, and repair and rehabilitation options.

Material for this 3-day course is primarily derived from the Hydraulic Design Series No. 5 (HDS 5), Hydraulic Design of Highway Culverts textbook, which is provided to participants. Additional references used throughout this course include Hydraulic Engineering Circular No. 14 (HEC-14); Hydraulic Design of Energy Dissipators for Culverts and Channels; HEC-26, Culvert Design for Aquatic Organism Passage; and HEC-9, Debris Control Structures, Evaluation, and Countermeasures. Course topics include culvert design principles and procedures and debris control structures. Throughout the course, participants engage in a number of workshops where problems are completed, both long-hand and with a computer using the FHWA HY-8 Culvert Hydraulic Analysis and Design Program. Additionally, a portable hydraulic flume is set up in the classroom for the participants to observe hydraulic principles associated with various culvert configurations, aquatic organism passage features, and culvert linings.

At the end of this course, participants will be able to apply fundamental engineering concepts, methods, and the HY-8 computer program to analyze and design culvert crossings meeting a variety of hydraulic and environmental design criteria.

Prior to taking this course, participants are strongly encouraged to enroll in the Web-based training (WBT) entitled, 135091 Basic Hydraulic Principles Review. Mastery of the concepts covered in this WBT is important to successful completion of the Instructor-led training.

OUTCOMES:
Upon completion of the course, participants will be able to:

Justify the importance of culvert design
Explain the overall culvert design process
Summarize basic hydraulic concepts
Discuss factors influencing hydraulic performance and design of culverts
Explain how to calculate culvert outlet velocity
Apply nomographs and computer methods to design a roadway culvert
Design culverts that meet aquatic organism passage (AOP) requirements
Assess impacts of repair and rehabilitation of culverts on hydraulic performance
Design energy dissipator and debris control structures for culverts
Design culverts for various situations
Discuss culvert failures and how they can be prevented

TARGET AUDIENCE:
This intermediate-level training course is intended for hydraulic engineers, transportation engineers, and highway designers involved with roadway drainage and culvert design. Environmental scientists with an interest in aquatic organism passage may also benefit from participation in this course.

If you have questions about this NHI training, please contact NHI at nhicustomerservice@dot.gov or 877.558.6873.

PREREQUISITES:
Participants should have some drainage design experience or successful completion of either a) college-level fluid mechanics coursework or b) Introduction to Highway Hydraulics (FHWA-NHI-135065).

Prior to taking this course, participants are strongly encouraged to enroll in the Web-based training (WBT) entitled, NHI 135091 "Basic Hydraulic Principles Review." Mastery of the concepts covered in this WBT is important to successful completion of the Instructor-led training.

COURSE DESCRIPTION:
The National Highway Institute's (NHI) 3-day Culvert Design course provides participants with an in-depth, hands-on understanding of how to hydraulically size and design a highway culvert. The course covers a range of design topics, including allowable headwater at the inlet, permissible outlet velocity, energy dissipation measures, aquatic organism passage, mechanisms of culvert failures, and repair and rehabilitation options.

Material for this 3-day course is primarily derived from the Hydraulic Design Series No. 5 (HDS 5), Hydraulic Design of Highway Culverts textbook, which is provided to participants. Additional references used throughout this course include Hydraulic Engineering Circular No. 14 (HEC-14); Hydraulic Design of Energy Dissipators for Culverts and Channels; HEC-26, Culvert Design for Aquatic Organism Passage; and HEC-9, Debris Control Structures, Evaluation, and Countermeasures. Course topics include culvert design principles and procedures and debris control structures. Throughout the course, participants engage in a number of workshops where problems are completed, both long-hand and with a computer using the FHWA HY-8 Culvert Hydraulic Analysis and Design Program. Additionally, a portable hydraulic flume is set up in the classroom for the participants to observe hydraulic principles associated with various culvert configurations, aquatic organism passage features, and culvert linings.

At the end of this course, participants will be able to apply fundamental engineering concepts, methods, and the HY-8 computer program to analyze and design culvert crossings meeting a variety of hydraulic and environmental design criteria.

Prior to taking this course, participants are strongly encouraged to enroll in the Web-based training (WBT) entitled, 135091 Basic Hydraulic Principles Review. Mastery of the concepts covered in this WBT is important to successful completion of the Instructor-led training.

OUTCOMES:
Upon completion of the course, participants will be able to:

Justify the importance of culvert design
Explain the overall culvert design process
Summarize basic hydraulic concepts
Discuss factors influencing hydraulic performance and design of culverts
Explain how to calculate culvert outlet velocity
Apply nomographs and computer methods to design a roadway culvert
Design culverts that meet aquatic organism passage (AOP) requirements
Assess impacts of repair and rehabilitation of culverts on hydraulic performance
Design energy dissipator and debris control structures for culverts
Design culverts for various situations
Discuss culvert failures and how they can be prevented

TARGET AUDIENCE:
This intermediate-level training course is intended for hydraulic engineers, transportation engineers, and highway designers involved with roadway drainage and culvert design. Environmental scientists with an interest in aquatic organism passage may also benefit from participation in this course.

If you have questions about this NHI training, please contact NHI at nhicustomerservice@dot.gov or 877.558.6873.

PREREQUISITES:
Participants should have some drainage design experience or successful completion of either a) college-level fluid mechanics coursework or b) Introduction to Highway Hydraulics (FHWA-NHI-135065).

Prior to taking this course, participants are strongly encouraged to enroll in the Web-based training (WBT) entitled, NHI 135091 "Basic Hydraulic Principles Review." Mastery of the concepts covered in this WBT is important to successful completion of the Instructor-led training.


Credit Hours

24
Road Scholar Hours

2
Continuing Education Credits (CEUs)

0
TCH

1
Road Scholar Credits


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