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EDUCATION
REGISTRATION
PROFESSIONAL
AFFILIATIONS
PROFESSIONAL HISTORY
GENERAL
BACKGROUND
EXPERIENCE
HIGHLIGHTS
PUBLICATIONS
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Master of Science, Utah State University,
1977, Watershed
Science
Bachelor of Science, State University
of New York at Cortland,
1969, Geology
Professional Hydrologist - American
Institute of
Hydrology
Certified Erosion Control Supervisor
- Colorado
Department of Transportation
American Institute of Hydrology
American Water Resources Association
Association of State Floodplain Managers
Colorado Association of Stormwater and
Floodplain Managers
- Chairman, Flood Committee
International Erosion Control Association
Flow Technologies, Breckenridge, Colorado
- Owner/Professional Hydrologist
- (1996 - present)
U.S. Bureau of Reclamation, Denver,
Colorado
- Hydraulic Engineer
- (1982 - 1996)
U.S. Geological Survey, Denver, Colorado
- Hydrologist
- (1979 - 1982)
U.S. Bureau of Land Management, Sacramento,
California
- Hydrologist
- (1977 - 1979)
Mr. Trieste is a registered Professional
Hydrologist specializing in river hydraulics and hydrology.
Areas of expertise include hydrologic studies, flood
control planning and design, drainage, dam safety and
dambreak analyses, dam hydraulics, and hydraulic structures.
He owns Flow Technologies formed in 1996. Mr. Trieste
has previously worked as a hydraulic engineer with the
U.S. Bureau of Reclamation, Denver, Colorado, focusing
on safety of dams, dam hydraulics, and large floods,
the U.S. Geological Survey, Denver, Colorado, as a research
hydrologist developing rainfall/runoff models, and for
the U.S. Bureau of Land Management as District Hydrologist,
Folsom, California, focusing on watershed management
and non-point source pollution.
Mr. Trieste is very active in the Colorado
Association of Stormwater and Floodplain Managers and
is Chairman of the Flood Committee.
- US Department of Interior Safety
of Dams Program – US Bureau of Reclamation, Denver,
Colorado
Lead hydraulic engineer for safety of
dams hydraulic evaluations including dambreak/inundation
studies, inundation map preparation, hazard classifications,
and dam modifications on hundreds of dams nation-wide.
Considerable work was done on designing spillways and
outlets, and reservoir sizing to accommodate new design
floods. Reservoir operating procedures were modified
or developed to allow for safe operation of dams, and
to optimize water use for irrigation, power generation,
recreation, industrial, and domestic purposes.
Instrumental in developing Bureau of
Reclamation’s procedures for performing dambreak/inundation
studies, author of Reclamation’s Downstream Hazard Classification
Guidelines, and contributing author of Reclamation’s
Design of Small Dams.
- Cherry Creek Basin Site-Specific
Probable Maximum Precipitation Study - Colorado
Part of a team of expert meteorologists
and hydrologists working to evaluate the U.S. Army Corps
of Engineers 1996 Probable Maximum Precipitation study
for Cherry Creek Dam safety evaluation. Study involves
evaluating historic peak discharge records and on-site
paleohydrology evidence on selected sub-basins within
Cherry Creek Basin for largest known peak discharges.
Rainfall/runoff modeling is used to estimate the rainfall
amounts and distributions necessary to drive the peak
discharges. Multi-disciplinary study involves interfacing
with State appointed Technical Review Committee at quarterly
intervals.
- Idaho Department of Transportation US Highway
89 from Montpelier, Idaho to Geneva, Wyoming
US Highway 89 is undergoing design for reconstruction
though Montpelier Canyon, an environmentally sensitive
area. Working with a multi-disciplinary team of experts,
duties involved designing hydraulic structures (channels,
inlet, outlet controls, storage) for constructed wetlands
needed for mitigation, channel design for Montpelier
Creek channel relocation, hydrology for all major and
minor cross drains, and roadside ditches, design and
sizing of all cross drains and roadside ditches.
- U.S. Geological Survey Rainfall/Runoff
Modeling Program – Denver, Colorado
Performed research on the USGS Precipitation
Runoff Modeling System. Study involved watersheds in
Colorado coal basins. Collected hydrometeorological
data including rainfall, snow depth, evaporation, streamflow,
etc. Developed and tested computer algorithms for computing
watershed physical processes, calibrated models, and
applied models to historic meteorologic data to simulate
historic flow where records were non existent. Applied
models to predict impacts of mining on hydrology of
watersheds.
- Fort Apache Indian Reservation
Dam Failure Inundation Mapping – Bureau of Indian
Affairs, Phoenix Area Office Performed dam-failure/inundation
studies on 10 high-hazard dams. Studies included defining
hydrology on 330 square mile basin including all tributaries
and reservoir inflow hydrographs, modeling individual
and multiple dam failures on different tributaries
to the North Fork Whiteriver which included dams in
series and in parallel. Studies were done for both
for sunny-day and hydrologic failure events. Emergency
Preparedness Plan and inundation maps have been prepared
based on the results.
- Fort Apache Indian Reservation
Arizona Downstream Hazard Classifications – Bureau
of Indian Affairs, Phoenix Area Office
Downstream hazard classifications were
performed on several embankment dams. Project involves
collecting data and information, dambreak/inundation
modeling, and assigning a hazard classification to the
dams based on Department of Interior criteria.
- Grande Ronde River, Oregon, Flood
Control, Fish Habitat Enhancement, and Stream Rehabilitation
Study – La Grande, Oregon
Problems with the existing flood control
system, and causes of flooding were evaluated. Identified
a realistic design flood, and proposed several flood
control alternatives weighing cost against flood protection.
In addition, flood control alternatives were combined
with stream rehabilitation measures for the purpose
of fish habitat improvement which is a very sensitive
issue in the region. Study involved working with and
obtaining input from many organizations including Army
Corp of Engineers, National Resource Conservation Service,
State and local agencies, Universities, and the general
public.
- U.S. Bureau of Land Management
Section 208 Program Team Leader, Sacramento, California.
Developed program to inventory non-point
sources of pollution on BLM land in California, and
to design and implement Best Management Practices.
- U.S. Bureau of Land Management
District Hydrologist, Folsom, California.
Responsible for BLM watershed management
activities in District. Included monitoring water quality
and runoff changes for different land uses, non-point
source pollution and control, designing hydraulic structures,
implementing Best Management Practices, supervising
staff, and coordination with multi-disciplinary teams.
- US Air Force Academy Road to CATM/FERL
Drainage Design and Stormwater Pollution Prevention
Plan (SWPPP) - Colorado
Hydrology studies, drainage plans, and
a SWPPP for a new road were performed. Data was collected
including soils, vegetation, existing hydrology studies,
and adjacent drainage plans. Hydrologic and hydraulic
analyses were done for ditch and culvert sizing and
design, and detention needed to mitigate increased runoff.
The SWPPP is commensurate with EPA regulations and involves
drawings before, during, and post construction, completed
detail sheet of recommended Best Management Practices
including timing and placement, completed detail sheet
of inspections and maintenance requirements, detailed
information on vegetation establishment with time schedule
for installation.
- Truckee River Operating Agreement
Environmental Impact Statement – Reno, Nevada
Lead Bureau of Reclamation engineer
for hydraulic and hydrologic investigations on impacts
of proposed operational flow changes to Truckee River.
Involved analyzing river morphology, aggradation/degradation,
streambank erosion, Pyramid Lake delta formation, and
Lake Tahoe shore erosion for Truckee River Operating
Agreement Environmental Impact Statement. Worked on
EIS team to write and publish EIS and respond to public
comments.
- Centennial Ranch Phase III Drainage
Report – Parker, Colorado
A Phase III drainage plan has been completed
that meets criteria set forth in the Douglas County
Storm Drainage Design and Technical Criteria manual.
The site was divided into sub-basins and hydrologic
and hydraulic analyses performed for peak discharge,
roadside ditch and culvert sizing, and detention pond
location, sizing and design. Alternatives for levees
and channelization were evaluated and designed for Baldwin
Gulch to mitigate potential impacts from an existing
dam located on the property. Auxiliary drainage ditches
were designed for the channel along steep slopes, and
permanent erosion control alternatives evaluated including
riprap, check dams, and synthetic material. A sediment
and erosion plan was presented for the construction
period.
- City of Del Mar, California Hydrology
Study and Drainage Control Analysis and Design
Perform urban hydrology study, existing
drainage structure analysis, and new structure design
for all of the City of Del Mar. Purpose was to determine
drainage problems, and develop solutions for preventing
erosion of bluffs (caused by inadequate drainage) and
consequent threat to railroad along Pacific Ocean.
- City of Aurora Erosion Control
Program - Colorado
Performed erosion control inspections,
erosion control plans, and developed Best Management
Practices on construction sites. Work was commensurate
with State of Colorado Department of Health, U.S. Environmental
Protection Agency, and City of Aurora criteria.
- FEMA Letter of Map Revision (LOMR)
for Baldwin Gulch, Colorado – Parker, Colorado
A reach of Baldwin Gulch, Colorado that
is part of a Federal Insurance Rate Map (FIRM), has
been developed and channelized. Changes to water surface
elevations and floodplain widths for 100 - and 500 -
yr floods were modeled and compared with existing conditions
per FEMA criteria. The existing reach was surveyed to
obtain cross-sections and a topographic map. Detailed
water surface profile analyses were performed using
HEC-RAS. Studies and materials were prepared to meet
requirements of FEMA’s LOMR process..
- B Bar B Ranch Fill Placement Hydrology,
and Channel and Erosion Control Design – Sedalia,
Colorado
Fill-placement of landfill has been
occurring across a natural channel. The Douglas County
Engineer determined that such is not permissible and
a by-pass channel with a 100-yr flood design discharge
shall be constructed across the fill and into the existing
channel. That involved determination of design discharge
and hydraulic design of a by-pass channel, erosion control
plan for slopes up to 33 percent, and design drawings
- Willow Creek Water Surface Profile
Analysis – Douglas County, Colorado
River water surface profile hydraulic
analyses based on HEC-RAS, and floodplain mapping was
performed for construction of a stream crossing. Water
surface profiles from existing Urban Drainage and Flood
Control District study were duplicated for the purpose
of comparing impacts of road crossing on UDFCD’s designated
100-yr floodplain.
- Running Brook Estates Hydrological
Investigations and 100-yr Floodplain Study – Elbert
County, Colorado
The 100-yr floodplain was delineated
for Running Brook Estates, located in Elbert County
Colorado, based on hydraulic analysis using HEC-RAS.
A comprehensive hydrologic investigation was performed
for estimating the 100-yr discharge due to lack of stream
gage data, and discrepancy and controversy over methods
used to estimate flood frequency discharge in the region
of Running Creek Basin. Methods used in the evaluation
included rainfall/runoff modeling, regional regression,
and paleohydrology.
- Franktown Parker - P1 Dam, Hydrologic
Investigations and Flood Routing – Parker, Colorado
Property was planned for development
that contains a National Resource Conservation Service
flood control dam located in Parker, Colorado. With
regard to development impacting the dam, the Office
of the State Engineer has requested an analysis to determine
effect on the dam’s passing the 100-yr flood. The 100-yr
flood for both historical and developed conditions was
derived from CUHP (Colorado Unit Hydrograph Procedure)
and routed through the dam. Elevation-storage, and elevation-discharge
relationships were developed for the reservoir, and
outlets and spillway, respectively. Reservoir routing
was performed via HEC-1.
- Franktown Parker - B1 Dam, Dambreak/Inundation
Study – Parker, Colorado
A dambreak/inundation study necessary
to mitigate development of property downstream from
Franktown Parker - B1 Dam, located near the town of
Parker, Colorado, was performed. That included determining
the discharge that could overtop and fail the dam, the
recurrence interval of such discharge, modeling a hypothetical
dam failure, and determining the area subject to flooding
including flood depths and velocities. BOSS DAMBRK and
HEC-RAS models were used to perform the analyses.
- Kiowa Schools Hydrologic and Flood
Hazard Study – Kiowa, Colorado
Kiowa School District, Colorado, planned
to expand facilities including an addition to the existing
school and construction of an adjacent building. Investigations
were performed which included hydrology studies based
on HEC-1 to define frequency floods, and water surface
profile studies based on HEC-RAS.
- The Greens at Cedar Ridge Expert
Witness Preparation – Tulsa, Oklahoma
Private property located immediately
downstream from The Greens at Cedar Ridge subdivision
near Tulsa, Oklahoma, is experiencing erosion and sediment
damage due to excessive runoff emanating from the subdivision.
The property owner, knowing that the problem didn’t
exist prior to the subdivision, has filed a law suit
against the developer and engineering firm. Obtained
data, information, and study reports used in the drainage
plan for The Greens and scrutinized analyses and results.
Testimonial information is being prepared for an upcoming
court case.
Trieste, D.J. (1994), "Supercritical/Subcritical
Flows in Natural Channels." Proc 1994 Conference,
Hydraulic Engineering, 731-736, ASCE
Trieste, D. J. (1992). "Evaluation
of Supercritical/Subcritical Flows in High Gradient
Channel." J. Hydr. Engrg., ASCE, 118(8), 1107-1118.
Trieste, D.J. (1988). Downstream
Hazard Classification Guidelines. Assistant Commissioner
- Engineering and Research Technical Memorandum No.
11. US Bureau of Reclamation.
Design of Small Dams, Contributing
Author, Chapter 13, Dam Safety, US Bureau of Reclamation,
Third Edition, 1987.
Trieste, D.J., and Jarrett, R.D. (1987).
"Roughness Coefficients of Large Floods."
Proc. Conf. Irrigation Systems for the 21st Century,
32-40, ASCE.
Trieste, D.J., and Gifford, F. (1980).
"An Evaluation of Some Erosion Equations."
J. Range Management.
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