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Explore the history, objectives, and features of the 2011 AASHTO Drainage Manual presented by TCHH. Discover challenges, opportunities, and membership statistics, including upcoming revisions and sponsored research.
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AASHTO TCHH THE 2011 DRAINAGE MANUAL AASHTO Subcommittee On Design (SCOD) Annual Meeting July 2008 Michael Fazio, Chair Technical Committee on Hydrology and Hydraulics
Objectives Present TCHH Activities, Especially those Centered on the 2011 AASHTO Drainage Manual and H&H Research. Talk about TCHH Future Opportunities
THIS PRESENTATION • TCHH – Who we are • TCHH - Brief History • TCHH - Charter • 2011 AASHTO Drainage Manual • Research • Challenges and Opportunities
Membership Stats • Total Number of Members – 23 • Longest service period – 17 years • Average service period – 7 years • Number of Hydraulics Engineers - 17
Brief History • 1969 AASHO Committee on Design commissioned the Exec. Committee to publish a drainage design manual • Ten states from the Committee on Design were selected to complete the assignment, with the representation of the Bureau of Public Road (BPR) • State drainage/hydraulics engineers from the selected ten states were delegated to serve in the subcommittee, then re-designated a task force
Brief History • 1970 - The first meeting of the AASHO Subcommittee (later named Task Force) on Hydrology and Hydraulics was held in Dallas, Texas • 1973 – AASHO becomes AASHTO • Several drainage guides published from 1970 on • 1987 – The guides were collected in the “Red” guide (color of the cover), titled “Highway Drainage Guidelines” • 1992 – The “Green” guide was published
Brief History • 1991 – The first Model Drainage Manual was published after five years of work – The manual featured double parenthesis to allow states to adapt contents to their needs • 2005 – Metric Model Drainage Manual published
1970 Charter and Objectives To maintain a working group with expertise in hydrology and hydraulics to develop AASHTO guidance and policy on drainage design and related issues
Current Charge Statement TCHH manages the change and development of national policies and guidelines relating to highway hydraulics… Provides guidance to practitioners in the planning, design, construction and maintenance, and regulatory compliance of all drainage related features of surface transportation facilities. The committee promotes and recommends new research in the field.
1970 Goals • Develop and update guidelines and procedures for highway drainage • Make a periodic evaluation of all AASHTO publication and policy related to drainage • Advise the subcommittee on Design regarding proposed drainage related policies • Provide liaison with researchers to improve implementation of new ideas and encourage research • Maintain and update the model drainage manual • Identify training needs and provide guidance on curriculum • Identify, coordinate and recommend software • Identify technology needs for FHWA • Promote Technology Transfer to improve implementation of new ideas
2005 MDM • Flexible and Adaptable • Double Parenthesis for Agency’s Name • Includes 20 Chapters • Dual Units • New Glossary • Many new Figures and Graphs
2005 MDMProblems • Bulky • Hard to use • Limited sales • Dual units • Redundancy • Some outdated information
MDM Resolution • Because of poor sales, TCHH revisited the MDM objectives, deciding to publish a new manual that would be more practical, easy to use and updated. • Results: two-part manual, with part I on Policies and part II on Procedures • Parts of the manual to be sold separately
AASHTO Drainage Manual - Revision Revisions Objectives: 1. Make the Manual Authoritative 2. Expand the usefulness to a broader audience, make the manual more user friendly, reduce the clutter and make it more accessible.
2011 AASHTO Drainage ManualFeatures • The Policy Part is rarely revised • The Procedures Part is dynamically updated • Chapters can be bundled and sold separately • Duplication removed • One language throughout the manual • Remove outdated information, practices and methods • New Chapters on Wetlands and Groundwater
2011 AASHTO Drainage ManualFeatures • Use of “should” • Single U.S. units • New research to be part of the manual appendices • Other FHWA publication to be part of appendices • No more model manual or two parenthesis
Manual Disclaimer To manage possible conflicts with existing standards published by other federal or state agencies, the following statement will be placed in the manual: “This manual has been written to provide recommended minimum desired criteria”
Funding • Funding needed to hire a consultant to complete changes to the manual • A pool fund set up to get state participation and funding • Solicitation 1186 is being reviewed by FHWA for approval
TCHH Sponsored Research • TCHH prepares and shortlists research problem statements to submit to SCOD and NCHRP • TCHH supports and works closely with FHWA Hydraulics Lab • Currently several TCHH members serve seven NCHRP research projects • Research findings are being implemented as changes to policies and practices
Research • The NCHRP research project include: • One on hydrology • Four on bridge scour • One on culvert rehabilitation methods and policies • One on stream stabilization using “natural structures”
Research • Some projects the FHWA Hydraulics Lab (Sterling Jones) is working on are: • Improving stream shear stress calculations • Improving deck profile for submergence flow • Fish passage • Scour measurement instrumentations
Challenges and Opportunities • NPDES II • Decaying drainage infrastructure • Plan of Action for Scour Critical Bridges • Adding capacity to the highways • EPA Permits • Flooding risks • DOT Organizational Changes
Conclusions • TCHH is a group of dedicated professionals • TCHH goals: manual/guides, policies, research, training • 2011 AASHTO Drainage Manual to be more user friendly and authoritative • TCHH supports national research on hydrology and hydraulics
“The Task Force provided a forum where members could discuss their problems with others who had similar technical and creditability problems…This process of sharing information and learning through the experience of other members continues to be an important benefit of serving on the Task Force.” Mainard Wacker, P.E., History of the AASHTO Task Force on Hydrology and Hydraulics, October 1993
Research • NCHRP 15-36, Estimating Joint Probabilities of Design Coincident Flows at Stream Confluences (estimated completion is Spring 2009) • NCHRP 24-15(2), Bridge Scour in Cohesive Materials– (estimated completion is 06/2008). • NCHRP 24-27, Recommendations for the Adoption of Bridge Scour Research by State Highway Agencies –Panel decided to break project in three parts: abutments, piers and geomorphology. • NCHRP 24-29, Scour at Bridge Foundations on Rock. (estimated completion: June 2010) • NCHRP 24-32, Scour at Wide Piers and Long Skewed Piers. • NCHRP 24-33, Development of Design Methods for In-Stream Control Structures (estimated completion Spring 2011). • NCHRP 14-19, Culvert Rehabilitation to Maximize Service Life While Minimizing Direct Costs and Traffic Destruction (estimated completion Fall 2010)
NCHRP 24-15(2) • A benefit of the cohesive soils scour would be a • realistic analysis in soils where there is some resistance to scour. see this a means to reduce scour for sites where the frequency and • duration of flows are less and the soil is quite resistant. For long • durations and less resistant soils, there may not be as much benefit.
NCHRP 15-24 – Culvert Coefficients Update • Final Stages • Provides information on additional culvert features which were not addressed in the original Bureau of Standards testing in the 1950's. (multiple culverts evaluation) • Some of the results will be incorporated in the updated HY‑8.
NCHRP 15-36, Estimating Joint Probabilities of Design Coincident Flows at Stream Confluences • Currently designer use USACE table for coincident flow • Table may not be very reliable across USA • This project will provide guidance for properly designing a drainage structure near or at a stream confluence
NCHRP 24-32, Scour at Wide and Long Skewed Piers • The objective of this research is to develop methods and procedures for predicting time‑dependent local scour at wide piers and at long skewed piers in non‑cohesive soils and steady flow. Improvements to scour estimates could save money by reducing over prediction of scour for large or skewed pier situations. • This project improves scour prediction at wide bridge piers. Current national equations grossly over‑predict scour at wide piers, resulting in wasteful bridge substructure designs.
NCHRP 24-33, Development of Design Methods for In-Stream Flow Control Structures • Evaluate the potential of in-stream structures for protecting bridges and embankments • Develop design methods for properly placing in-stream structures
NCHRP 24-27, Evaluation of all Scour Research for Design and Policy Implementation • Significant improvement in scour prediction practice adopted from this research will safely reduce bridge substructure costs. • Project 14‑19, Culvert Rehabilitation to Maximize Service Life: this project will produce a handbook to address pipe repair decisions, including assessing the conditions of existing pipe and factors affecting the choice of repair methodology. The project will also develop a training course and repair specifications. Repair methodologies and issues such as grouts, pipe voids, joint seals, etc. will be addressed. States currently lack guidance in these areas.
NCHRP, 24-29, Scour of Degradable Rock • This project will improve scour prediction in rock, allowing significant savings through more reasonable scour predictions.
NCHRP 14-19, Culvert Rehabilitation to Maximize Service Life • States currently lack guidance in these areas. • Produce a handbook to address pipe repair decisions, including assessing the conditions of existing pipe and factors affecting the choice of repair methodology. • Develop a training course and repair specifications. Repair methodologies and issues such as grouts, pipe voids, joint seals, etc. will be addressed.
20‑07 Project on Pipe Material Selection (upcoming) • Examine national research on pipe materials selection, providing preliminary guidance and identifying areas of needed research. Currently, little national guidance is available in this area.