GEA Engineering, P.C. - 1 - LONG POND DAM ENGINEERING ASSESSMENT REPORT TABLE OF CONTENTS Page EXECUTIVE SUMMARY..................................................................................................5 1.0 INTRODUCTION........................................................................................................8 1.1 Location 1.2 Owner/Operator 1.3 Purpose of the Dam 1.4 Description of the Dam and Appurtenances 1.5 NYSDEC Dam Inventory Data on Long Pond Dam 2.0 RECORDS REVIEW.................................................................................................13 2.1 Summary of USACE Phase I Report 1981 2.2 Summary of Response to Phase I Dam Safety Requirements 2.3 Summary of NYSDEC Regulations, Letters, Inspections, Notice of Violation 2.4 Summary of Kellard Sessions-Map, Plan and Report for Dam Maintenance District 6/2013 and 3/2014 3.0 HAZARD CLASSIFICATION EVALUATION.............................................................26 3.1 Dam Reclassification 4.0 DAM INSPECTIONS................................................................................................28 4.1 Safety Inspection 4.2 Diver Inspection 4.3 Low Level Outlet Investigation 4.4 TV Inspection of Dam Drawdown Pipe 5.0 HYDROLOGY ASSESSMENT.................................................................................32 5.1 Hydrologic Model 5.2 Existing Hydrologic Conditions
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FIGURES Figure 1 - Location Map Figure 2 - Location Plan of Test Pits and Borings Figure 3 - Cross Section of Long Pond Dam Figure 4 - Long Pond Dam Profile Figure 5 - Inundation Map Figure 6 - Long Pond Watershed Area Figure 7 - Mianus River Watershed Area Figure 8 - Graphical Representation of the Resultant Force Direction Figure 9 - Load Configuration Diagram Figure 10 - Proposed Tree Removal Plan Figure 11 - Proposed Project Schedule
GEA Engineering, P.C. - 4 -
APPENDICES Appendix A - Previous Reports and NYS DEC Documents
• NYS District Corps of Engineers Phase I Inspection Report. September 1981
• Satterthwaite Associates Response to Phase I Dam Safety Requirements. January 1984
• NYSDEC Letter from Alon Dominitz to Supervisor Lombardi. April 16, 2003
• NYSDEC Inspection. March 22, 2007
• NYSDEC Notice of Violation from Donald E. Canestrari, P.E. April 29, 2015
• Kellard Sessions, Map, Plan and Report for Dam Maintenance District. June 2013 and March 2014
• NYS Inventory of Dams. Date of Data Update August 17, 2015
• NYSDEC, GEA Engineering, Town of North Castle Meeting. December 4, 2015
• Underwater Investigation Field Report. September 24, 2015 Appendix B – Safety Inspection Results Appendix C - Field Photographs Appendix D – HydroCad Model Results Appendix E – HEC-RAS Model Output Appendix F – Test Pit and Boring Logs, and Soil Test Results Appendix G – Emergency Action Plan Appendix H – Inspection and Maintenance Plan
GEA Engineering, P.C. - 5 -
Executive Summary
The Long Pond Dam is an earthen embankment gravity, hazard class B dam
constructed in the 1930's in the Town of North Castle. The purpose of this Engineering
Assessment is to comply with the NYSDEC Dam Safety Regulations Part 673 and
secure a permit. The dam is owned by the Town of North Castle and three property
owners. In February 2016 the town formed the Long Pond Dam taxing district to
manage the dam's expenses.
The dam surface area is 9 acres and impounds 83 acre-feet of water. The watershed
tributary to the dam consists of mostly residential and forest areas and includes two
dams: North Lake Dam and Windmill Dam. The dam discharges to a tributary of the
Mianus River which flows in the eastern direction.
The dam crest has a width 12-25 feet averaging about 16 feet. The height of the dam
ranges from 9.5 feet to 38.0 feet and averages about 25 feet. An existing spillway
consists of a 4 feet by 6 feet box culvert which discharges to a channel and flows to
Duck Pond.
The dam was constructed of low permeability soil, a silty sand (SM) above bedrock. It is
lined with a clayey sand (SC) liner on the pond side embankment.
Hydrologic and Hydraulic Analyses were conducted using a Watershed Model TR-20
(HydroCAD) and HEC-RAS Model Version 5.0 to assess flooding downstream. The
results of the analyses indicated for existing conditions:
• The dam overtops for a 100 year storm event
• Middle Patent Road, a Principal Arterial Other-NYSDOT designated road, is
flooded during the 100 year storm by 1.37 feet.
• Middle Patent Road is flooded by 2.52 feet for the 150% of the 100 year spillway
design flood.
GEA Engineering, P.C. - 6 -
The Engineering Assessment included the Dam Break Analyses utilizing HEC-RAS for
the following conditions with the results indicated:
• Sunny Day Dam Break (no rainfall)-Middle Patent Road was flooded by 2.10 feet.
• The 100 year storm event and Dam Break-Middle Patent Road was flooded by
4.87 feet.
• The 150% spillway design flood and Dam Break-Middle Patent Road was flooded
by 4.01 feet.
Middle Patent Road is used as critical infrastructure that could be impacted by a flood
hazard outlined above.
Raising the dam to provide additional storage and improving the spillway will lessen the
downstream flooding impacts.
Dam Stability Analyses were conducted for a range of conditions in accordance with the
NYSDEC Dam Safety Regulations Part 673. A summary of the Stability Analyses
shows:
• The dam is stable under all scenarios
• The improved dam has higher factors of safety and this is even more stable than
existing conditions.
This Engineering Assessment Report addresses improvements to the dam needed to
rehabilitate and comply with the NYSDEC Dam Safety Regulations Part 673. The
improvements will include:
• Additional spillway capacity.
• Improvement to the spillway discharge channel.
• Raising the height of the dam about 1.5 feet.
• Removal of trees at the toe area of the dam, trees on the water side of the dam,
trees that are 6 inch diameter or less, unhealthy trees and have an arborist
conduct an annual inspection of the condition of the trees and roots.
• The existing 12" diameter drawdown drain will be filled with cement or plugged
with a mechanical plug.
GEA Engineering, P.C. - 7 -
• The gazebo gate valve will be abandoned
• An agreement between the Armonk Fire District and Town of North Castle for the
Armonk Fire District to provide pump truck and hoses to pump down the Long
Pond Dam.
Following the review of this Report and associated Plans, GEA will need to prepare the
following documents:
o Engineering Plans and Specifications for Dam Repair
o NYSDEC Part 673 Dam Permit Application
o NYSDEC Protection of Waters Permit Application
Upon review and approval by NYSDEC, the Town/District may proceed with
construction. Tree removal is proposed to be conducted in November 2016.
Improvements are scheduled to be constructed in 2017. A detailed schedule is
provided.
GEA Engineering, P.C. - 8 -
SECTION 1.0
INTRODUCTION
The Town of North Castle secured the services of GEA Engineering to prepare an
Engineering Assessment Report for the Long Pond Dam, ID # 232-1094. This document
is prepared by GEA Engineering for the Town of North Castle in accordance with the
New York Code of Rule and Regulations, Part 673, for the Long Pond Dam.
The Long Pond Dam Engineering Assessment is required by the DEC to determine the
safety of the existing structure and to secure a permit.
In order to complete this Engineering Assessment Report, the following tasks were
completed:
• A review of records kept by the Town of North Castle
• On-site engineering inspection and investigation
• Engineering review, calculations and conclusions
• Engineering Assessment Report
• File report with the DEC and provide a copy for the Town of North
Castle
1.1 Location
Figure 1 presents a Location Map of the Long Pond Dam. The Long Pond Dam is
located in Westchester County in the Town of North Castle, New York, about 250 feet
northwest of Long Pond Road near the Long Pond Court cul-de-sac. Access is available
from Long Pond Court.
1.2 Owner/Operator
The properties surrounding the Long Pond which have a direct beneficial use of the lake
have formed the Long Pond Dam District. The Long Pond Dam District is a special
taxing district in accordance with NYS law, created to administer, manage, and fund the
construction, regulatory compliance, and annual maintenance costs for the Long Pond
Dam. The Long Pond Dam District includes twenty (20) parcels and the Town of North
Castle. The dam owners/members of the Long Pond Dam District are as follows:
GEA Engineering, P.C. - 9 -
Tax Lot Designation Owner Address
1/04/10.-45.BB Asif Ahmed 5 Oakridge
1/04/10.-45.C Stephen and Amy Berman 7 Oakridge
1/04/10.-600 June B. Greenspan 6 Oakridge
1/04/10.-601 Robert M. and Susan P. Klein 14 Pond Lane
1/04/10.-602 Susan R. and Zachary Shimer 16 Pond Lane
1/04/10.-603 Murray Leffler and Kay Trus 18 Pond Lane
1/04/10.-604 Joseph and April Paresi 20 Pond Lane
1/04/10.-605 Jeannette H. Loring 22 Pond Lane
1/04/10.-606 Daniel J. and Bertha McKee 24 Pond Lane
1/04/10.-72 Steven and Deborah L. Lipman 43 Windmill Road
1/04/10.-73 Peter J. Weiller 45 Windmill Road
1/04/10.-74 Robert and Ruth Shwab 47 Windmill Road
1/04/10.-202 Kenneth and Teresa Gleicher 4 Long Pond Court
1/04/10.-201 Amy and Joel Dworetzky 43 Long Pond Road
1/04/10.-200 Arturo and Victoria Maceira 41 Long Pond Road
1/04/10.-207 Aaron and Jennifer Katz 38 Long Pond Road
1/04/10.-208 Adam and Stephanie Gershuny 36 Long pond Road
1/04/10.-209 Russell and Melissa Katz 34 Long Pond Road
1/04/10.-210 Jeffrey N. and Elaine Allen 32 Long Pond Road
1/04/10.PK Town of North Castle Long Pond Road
The owners’ representative is the Town of North Castle’s Town Administrator under the
authority of the Town Supervisor.
1.3 Purpose of the Dam
The dam was constructed for recreation and aesthetic purposes. The dam dates from
about the 1930’s and was thought to be designed by the famous engineer Elwyn E.
Seelye. Construction design plans by Elwyn E. Seelye do not match the existing
conditions of the dam. The dam contains a spillway and a low level drain line. The dam
impounds water and stores it prior to releasing the excess to Duck Pond.
GEA Engineering, P.C. - 10 -
1.4 Description of the Dam and Appurtenances
The Long Pond Dam is an earthen dam that was constructed circa 1936. The dam
impounds approximately 83 acre-feet of water to form the Long Pond on the dam’s
western side. The pond has a maximum impoundment volume of approximately 117
acre-feet. The impoundment volume was estimated based on GEA's limited bathymetric
survey of the pond.
The Pond has a maximum length (north to south) of approximately 2000 feet and a
variable width ranging from 400 feet at its widest to about 150 feet at its shortest width.
The area of the pond is approximately 9 acres based on Westchester County GIS. The
Pond is surrounded by dense vegetation, trees and steep slopes.
The dam system is comprised of an earthen fill embankment with a 6 feet wide by 4 feet
high concrete box spillway which discharges into a rip-rap channel draining to Duck
Pond.
The height of the dam ranges from 9.5 feet to 38.0 feet as measured from the crest
(Elev. 474.5±) to the native material of the down stream embankment. The overall
length is approximately 600 feet. The crest of the dam is approximately 12-25 feet ±
wide and is comprised of fill soils covered with grass, trees and other vegetation. The
dam is considered an Earthen Fill Gravity Dam. Figures 2, 3, and 4 show the Plan,
Section and Profile of the dam respectively.
The condition of the dam at the time of inspection on August 26, 2015 was assessed as
follows:
• Functional
• Not in compliance
• Stable
• Deficiencies apparent
The concrete spillway is deteriorated and the dam has excessive tree growth which is
unacceptable by Dam Safety Standards.
GEA Engineering, P.C. - 11 -
1.5 NYSDEC Dam Inventory Data on Long Pond Dam
Name of Dam Long Pond Dam
State ID 232-1094
Hazard Code B
Year Completed 1936
Most Recent Inspection 3/31/2015
Location Information
Westchester County Town of North Castle Mianus River
Latitude: Longitude:
41.1463888889 73.6708333333
Type of Construction RE-Earth
Purpose Recreation
Technical Information
Federal ID Number NY00115
Dam Length (feet) 600
Dam Height (feet) 401
Spillway Width (feet) 6
Maximum Discharge (CFS) 2222
Maximum Storage (Acre-feet) 1743
Normal Storage (Acre-feet) 1154
Reservoir Surface Area (Acres) 115
Drainage Area (Square Miles) 0.466
Basin Long Island
Date of Data Update 8/17/2015
Last Condition Rating Not Rated
Date information obtained from NYSDEC: 3/5/16
1Field surveys and soil borings show that the actual dam height is 38 feet.
2 Hydrologic and Hydraulic Engineering Analyses determine that the
Maximum Discharge is 126.30 CFS.
3 The
Westchester County GIS, and Field and bathymetric surveys determined that the
Maximum Storage is 117
acre-feet.
4 The
Westchester County GIS, and Field and bathymetric surveys determined that the
Normal Storage is 83 acre-
feet.
GEA Engineering, P.C. - 12 -
5 The
Westchester County GIS, and Field and bathymetric surveys determined that the
Reservoir Surface Area is 9
acres.
6 The
Westchester County GIS, and Field and bathymetric surveys determined that the
Drainage Area is 0.63 square
miles.
GEA Engineering, P.C. - 13 -
SECTION 2.0
RECORDS REVIEW
A review of records maintained by the Town of North Castle and the NYSDEC included
the following documents:
• Dam Design Drawings by Seelye 1936
• NYS District Corps of Engineers Phase I Inspection Report, 9/1981
• Satterthwaite—Response to Phase I Dam Safety Requirements, 1/1984
• NYSDEC Regulations
• NYSDEC Inspection on 4/4/02 and Letter from Alon Dominitz to Supervisor
Lombardi, 4/16/03
• NYSDEC Inspection, 3/22/07
• NYSDEC Inspection on 3/31/15 and Notice of Violation from Donald E.
Canestrari, P.E., 4/29/15
• NYS Inventory of Dams, 3/5/16
• Kellard – Map, plan and report for Dam Maintenance District, 6/2013 and
3/2014
• Annual Certification, Emergency Action Plan (Appendix G), Inspection and
Maintenance Plan(Appendix H), Schedule
• NYSDEC, GEA Engineering, Town of North Castle Meeting, 12/4/15
The above records are included in Appendix A unless noted otherwise. Relevant information obtained from the records review includes:
• A Phase I Inspection Report for the dam which includes a description of the dam, the
purpose of the dam, the hazard classification, and the date the dam was constructed.
• A Response to Phase I Dam Safety Requirements which includes a seepage
analysis and an outlet works investigation.
• A NYSDEC inspection which identified dam seepage, undesirable tree and shrub
growth, and maintenance deficiencies.
• The Kellard Sessions Report which identified existing conditions of the dam including
maintenance deficiencies, tree overgrowth, and seepage. Proposed improvements
included tree removals and spillway repair.
GEA Engineering, P.C. - 14 -
• A NYSDEC “Notice of Violation” regarding lack of maintenance and safety issues
with the Long Pond Dam.
The NYS District Corps of Engineers Phase I Inspection Report and the Satterthwaite
Response to Phase I Dam Safety Requirements are both summarized below.
2.1 Summary of USACE Phase I Report 1981
The United States Army Corps of Engineers (USACE) completed a Phase I
Investigation to assess the general condition of the dam. The investigation was intended
to identify any need for detailed studies.
The USACE Phase I Report dated September 1981 contained the following remedial
measures that were required to be completed within 1 year of the report:
• Trees growing on dam
o All small trees, dead large trees and larger trees located near the crest
should be removed
o All large trees on the downstream slope should be inventoried
• The spillway capacity is inadequate
• Concrete spillway walls are spalling and deteriorating and should be repaired
• Downstream spillway bottom slab is undermined and should be repaired
• The low level drain valve condition is unknown
• The low level drain outlet could not be located
• Two seepages located at downstream embankment
o Seepage located at “Central toe” (area near large boulders)
o Seepage located at South abutment
• Capacity of the rock lined spillway channel should be evaluated
• Seepage area at the south abutment should be blanketed with a properly
filtered drainage blanket
• The low lying area upstream of Duck Pond should be backfilled to prevent
backwater encroachment on downstream slope
• An inspection and maintenance plan should be developed
• The Emergency Action Plan should be maintained and updated
The Phase I Report stated that the dam was structurally stable based on a visual
inspection and did not require a stability analysis to be done.
GEA Engineering, P.C. - 15 -
2.2 Summary of Response to Phase I Dam Safety Requirements
The Satterthwaite-Response to Phase I Dam Safety Requirements was prepared in
response to the USACE Phase I Report remedial measures.
The Response to Phase I Dam Safety Requirements was written by Walter B.
Satterthwaite Associates, Inc. dated January 1984. The report contains engineering
analyses and recommended actions needed to address the Long Pond Dam safety
concerns from the Phase I Dam Safety Inspection and Report dated September 1981.
The following are the engineering analyses completed:
• Hydrologic and Hydraulic Analysis
• Seepage Analysis
The report also included several recommended actions in response to the Phase I Dam
Safety Requirements.
2.2.1 Engineering Analysis— Hydrologic and Hydraulic Analysis
The report included a Hydrologic and Hydraulic analysis in response to the Phase I
report. The spillway design flood (SDF) for Long Pond Dam (Class B) is 150 percent of
the 100 year flood. The hydrologic analysis utilized a 100 year rainfall event of 7.5
inches in a 24 hour period. The runoff hydrograph was simulated and routed using the
USACOE HEC-I software package. The SDF hydrologic and hydraulic analysis resulted
in the following:
Peak Inflow
Rate (CFS)
Peak
Overflow
Rate (CFS)
Maximum Depth of
Embankment Overtopping
(in.)
Maximum Velocity of
Overtopping Flow
(ft/s)
484 271 5.3 2.0
The SDF analysis concluded that the spillway had inadequate capacity and the dam
was overtopped. However the dam being overtopped was considered safe due to the
minimal depth over the embankment and maximum velocity of overtopping flow was
safe for a grass lined channel.
GEA Engineering, P.C. - 16 -
The analysis was also simulated with the dam crest raised 10 inches (average across
crest). This raised dam crest resulted in the dam being overtopped by 1 inch
(considered negligible). The raised dam crest analysis concluded that adequate spillway
capacity is achievable without altering the spillway.
The current 100 year rainfall event is greater than the previous rainfall event used in the
Satterthwaite Response to Dam Safety Requirements Report and will also result in the
dam being overtopped.
2.2.2 Engineering Analysis—Seepage Analysis
Two seepages were observed at the right abutment (looking downstream) and central
toe (the area near the large boulders).
The report indicates that a 12 inch cast iron outlet drain was located on the downstream
face 34 feet below the crest of the dam at the right abutment at the seepage location.
A Seepage analysis was performed to determine the source of water discharging from
the right abutment and central toe (near large boulders) of the dam. Water samples
were collected from the two (2) seepage locations, Long Pond and local ground water
wells. The chemical properties of the water samples were analyzed to determine the
sources of the seepages. The following parameters were analyzed:
• Maturity of Groundwater (Silica, Calcium, Magnesium, and Chloride
concentrations)
• Iron concentrations (sensitive to Oxygen content)
• Copper, Zinc and Barium concentrations (trace constitutes of
groundwater)
• Temperature, pH
The report concludes that the right abutment seepage is due to groundwater infiltrating
the 12 inch cast iron outlet drain through its joints. It is also concluded that the seepage
from the central toe of the dam is a “spring” fed by the by Long Pond. Recommended
GEA Engineering, P.C. - 17 -
actions included: installation of a filter blanket and drain at the “central toe”, rock lined
channels to convey water from the seepage locations to Duck Pond and program for
routine monitoring of the seepages. The recommended actions were not implemented.
The two seepage locations have been recently observed.
2.2.3 Recommended Action—Modification of Dam to Achieve Spillway Capacity
The report recommended the crest of the dam to be raised an average of 10 inches for
a length of 300 feet to provide adequate spillway capacity.
2.2.4 RECOMMENDED ACTION—PROVISION OF WORKING RESERVOIR DRAIN
The report recommended the following procedure for investigating the condition of the
drain:
• The drain outlet should be excavated and examined for damage.
• The gate at the gazebo should be verified that it is in satisfactory
condition and in the fully closed position.
• Once the main gate is closed the drain pipe can be unblocked.
• Once the pipe is unblocked the main gate should be operated.
• If the drain valve was found to be in satisfactory condition, it could
be left in service
• If the drain and valve was found to be in poor condition and
inoperable, it was recommended to abandon the drain and valve by
installing a concrete plug at the upstream drain pipe.
2.2.5 Recommended Action—Repair of Spillway Structure
The report recommended that the undermined spillway foundation be repaired by
pouring concrete for a firm foundation. The spillway areas that were spalling and
deteriorating were recommended to be repaired with concrete patchwork.
2.2.6 Recommended Action—Control Wet Conditions on the Embankment
The wet conditions on the embankment caused by the seepages included several
recommended actions.
GEA Engineering, P.C. - 18 -
The recommended action for right abutment seepage by the drain outlet was to provide
a rock lined channel to safely convey seepage to the Duck Pond.
The recommended action for the “central toe” seepage by the large boulders included
the following:
• Removal of the boulders covering the discharge
• Excavation of the area over which the spring developed
• Placement of a sand bed and filter fabric
• Placement of drain pipe
• Backfill excavation with coarse gravel
• Provide rock lined channel to safely convey flow to the Duck Pond
For both seepages, it was recommended to implement a program to monitor the
discharges.
2.2.7 Recommended Action—Selective Removal of Trees
A professional forester examined and inventoried the trees growing on the dam. The
following were the recommended actions:
• All trees and brush occupying the upstream slope and crest should
be removed and seeded with grass.
• Unsound, unhealthy, unwanted and dead trees should be removed
from the downstream embankment.
• Routine evaluation of the trees on the dam should be incorporated
into the Operations and Maintenance Plan.
2.2.8 Recommended Action—Backfill Marshy Area
The report stated that the marshy area near the toe of the dam at Duck Pond was not
hazardous to the dam and no action was recommended.
The report recommended rip-rap be placed on the upstream slope for a distance of 300
feet between the spillway and a cluster of boulders located at the southern extent of the
GEA Engineering, P.C. - 19 -
embankment. It included placing twelve (12) inch diameter rip-rap from the crest to at
least two (2) feet below the normal pool level.
There is no evidence that the recommended actions were completed.
2.2.10 Remedial Work
The report concluded with the following primary remedial work items:
• Provision of a working reservoir drain
• Selective Clearing of trees from the embankment
• Provision of positive means to control and monitor discharges on
the embankment
• Raising of the dam crest to achieve spillway capacity
2.3 Summary of NYSDEC Regulations, Letters , Inspections, Notice of Violation
The purpose of the NYSDEC’s Division of Water Dam Safety Section includes: safety
inspection of dams; technical review of proposed dam construction or modification;
monitoring of remedial work for compliance with dam safety criteria; and emergency
preparedness. The NYSDEC Division of Water Dam Safety Section have composed
several letters, conducted inspections, and issued a notice of violation in regards to
Long Pond Dam. These documents are summarized below.
2.3.1 Summary of NYSDEC Regulations
The NYS DEC Dam Safety Regulations were revised and revisions became effective on
August 19, 2009 including 6 NYCRR Part 673 ("Dam Safety"). The revisions required
the owners of all Class C and Class B dams to:
• Operate and maintain the dam and all appurtenant structures in a safe condition
• Maintain in good order all available records regarding the dam, and provide those
records to any new owner and;
Owners of Class B Dams - Intermediate Hazard Dams are required to:
• Submit an Annual Certification to DEC by January 31, 2010, and annually
thereafter; Develop and submit to DEC an Emergency Action Plan (EAP) by
August 19, 2011. Submit annual updates to DEC thereafter. (Have some or all of
the EAP prepared by a Professional Engineer only upon request of DEC);
GEA Engineering, P.C. - 20 -
• Develop and implement an Inspection and Maintenance Plan by August 19, 2010
(do not submit the plant to DEC unless requested); Have an Engineering
Assessment (EA) conducted by a Professional Engineer and submit the Report
to DEC every 10 years. The first EA for a Class B dam is due by August 19,
2015;
• Have a Safety Inspection Conducted by a Professional Engineer on a regular
schedule as defined in the Inspection and Maintenance Plan. Do not submit the
Safety Inspection report to DEC unless requested;
• Report flows in erodible spillways to DEC within 5 days.
The NYS DEC Guidelines for Design of Dams also outlines specific design guidelines.
The Guidelines for Design of Dams for Hazard Class B Dams that apply to Long Pond
Dam include the following but are not limited to:
• A permit is required to construct, reconstruct, repair, breach, or remove without a
permit issued pursuant to 6 CRR-NY Part 608.3 Dams.
o All permit applications must include an engineering design report, plans
and specifications. Design must be stamped by a NYS registered
Professional Engineer.
o After completion of construction NYS DEC Dam Safety Section requires
� A certification from the construction engineer that the project was
constructed in accordance with approved plans
� As-built documents for the project
• Hydrologic Design Criteria for Existing Dams
o For Existing Hazard Class B Dams the Spillway Design Flood is 150% of
100 year
• Hydraulic Design Criteria
• Minimum Freeboard for Small Hazard Class B Dams is 1 foot (Freeboard is
measured from the top of the dam to the maximum water surface elevation)
• Single Spillway should have capacity and durability to handle extreme floods and
be non-erodible
• A low level outlet or drain is required to discharge 90% of the storage below the
lowest spillway crest within 14 days, assuming no inflow into the reservoir.
GEA Engineering, P.C. - 21 -
• Seepage Control
• Geometries of Earth Dams
• Vegetation Control - Trees and Brush are not permitted on earth dams
• Structural Stability Criteria including Geotechnical Investigations
• Existing Dams: Rehabilitation and Modification
• Prepare Inspection and Maintenance Plan, and Emergency Action Plan
2.3.2 Summary of DEC Letter From Alon Dominitz to Supervisor Lombardi, 4/16/03
The letter was written by Alon Dominitz, P.E. dated April 16, 2003 to the Town of North
Castle’s Supervisor Lombardi regarding a NYSDEC inspection on April 4, 2002. Mr.
Dominitz noted the following adverse conditions during the visual inspection:
• The concrete spillway structure has cracks and spalling.
• There are shrubs planted at the upstream and downstream edges of the dam
crest
• There are many mature trees on the upstream and downstream slopes of the
dam.
• The crest of the dam was well mowed, but had lawn furniture and yard waste on
it.
• There is a seep at the tow of the dam which may be associated with a leaking
and inoperable impoundment drain.
• There is no known mechanism for draining the impoundment incase of
emergency or for maintenance.
Mr. Dominitz also notes that these conditions are similar to those observed during
previous inspections. The NYSDEC recommended that a registered professional
engineer be retained by the Town to evaluate and report upon the dam and to propose
a design to bring the dam to conformance with current safety criteria.
2.3.3 Summary of NYSDEC Inspection, 3/22/07
The NYSDEC conducted a visual inspection of Long Pond Dam on March 22, 2007.
The NYSDEC inspection noted deficiencies such as Seepage, Maintenance and
Undesirable Growth and included several comments:
GEA Engineering, P.C. - 22 -
• The exact extent of the dam crest and downstream embankment should be
reviewed for hazard classification
• Dam Spillway
o At the time of inspection logs appeared to be in the outlet channel.
o At the time of inspection there was an unsecured hinged chain link fence
in spillway
o Surficial deterioration, spalling and chipping on sides of spillway
o Voids/concrete deterioration, and exposed reinforcing rods
• Upstream Dam Face
o Juniper bushes (near spillway) and mature trees on embankment (right
side)
• Dam Crest
o Mature trees on dam crest
• Downstream Face
o Seepage observed at center of dam- where crest makes a turn creating a
valley
o Rust colored seepage (2-5 GPM) from 3 large rocks- possible location of
drain pipe outlet (leaking valve?)
o Yard waste dumped on embankment
o Mature trees along entire length of embankment. Shrubs on far left end.
o House located at far right end-near right groin
2.3.4 Summary of NYSDEC Notice Of Violation, 4/29/15
The NYSDEC issued a Notice of Violation written by Donald E, Canestrari, P.E. to the
Long Pond Dam owners(The town of North Castle, Teresa and Kenneth Gleicher, Amy
and Joel Dworetzky, and Victoria and Arturo Maceira) on April 29, 2015 after conducting
an inspection on March 31, 2015. The NYSDEC stated that the dam owners have
neglected the dam, not performed inspections, recommended maintenance and not
monitored identified deficiencies at the dam. The NYSDEC issued the following
violations of the Department’s Dam Safety Regulation (6 NYCRR Part 673):
GEA Engineering, P.C. - 23 -
Citation Requirement Status
673.6 Develop and Implement an Inspection and
Maintenance Plan. Due August 19, 2010
VIOLATION—Not
developed/ implemented
673.7 Develop and distribute Emergency Action Plan
(EAP). EAP must be reviewed on annual basis.
Due August 19, 2011
VIOLATION—Not
submitted
673.8 Submit Annual Certification—must be submitted
by January 31 of each year, beginning in 2010.
VIOLATION—Not
submitted
673.13 Complete and submit Engineering Assessment
(EA) by August 19, 2015
Due August 19, 2015
The NYSDEC acknowledged that the Town was pursuing establishing a taxing district.
The NYSDEC recommended that the impoundment be drained until a responsive
owner(s) is identified. The NYSDEC stated “By June 12,, 2015, provide a written
response that includes a detailed plan and schedule to bring the Long Pond Dam into
conformance with Dam Safety requirements, or your plan to lower and/or breach the
structure.”
2.3.5 Summary of Meeting Between NYSDEC, Town of North Castle and GEA,
12/4/15
On December 4, 2015 a meeting was held to discuss permit issues and alternatives for
Long Pond Dam between:
• John Kellard P.E., Town of North Castle Engineer
• Alon Dominitz, P.E.-NYSDEC Chief, Dam Safety
• Syed Alam P.E.- NYSDEC
• Mark E. Lewis-NYSDEC
• Steven Gamelsky, P.E., President GEA Engineering
Re-classifying the dam’s hazard classification was discussed in order to reduce the size
of the spillway. A lesser class (from a “B” to an “A”) would result in a smaller spillway
size requirement. The NYSDEC said that it would be difficult to change the classification
and was generally not receptive to it. However, the NYSDEC was receptive to a lesser
spillway design criteria from 150% to 100% of the 100 year storm event flow, if the
GEA Engineering, P.C. - 24 -
Town can demonstrate no additional impact from flooding at Middle Patent Road. In this
regard, NYSDEC needed the Town to evaluate these scenarios:
• 100 yr. flow
• 150% of 100 yr flow
• Sunny day dam break failure
• 100 yr flow with dam break
• 150% flow with dam break
The NYSDEC said that they are adopting the Draft NOAA Atlas 14 Precipitation Data
and requested the data be used in the models.
The dam drain down was also discussed. The discussion first focused on the possibility
of eliminating the use of the 12-inch drain pipe (and not having to repair the gatehouse-
valve box structure). The alternatives discussed included:
• Private Contractor on-call for pumping down the dam. Need 1500 GPM.
NYSDEC was not convinced that during a major storm event a private
contractor would absolutely live up to the terms of the contract
particularly in terms of response times.
• Use of Town’s fire trucks dedicated for emergency dam pump down.
Most fire trucks have pumps rated at 1000 – 1500 GPM. This will
require a minimum of one truck or possibly two. JK to check with the
Town to see what are their fire truck pumping capacities. Also, if they
could check the pump’s suction-lift and if their pumps are self-priming.
The depth of the pond is about 24 – 26 feet and the pumps would have
to provide a suction lift of about 30 ft.
• Provide a stand alone generator with pumps. This would be a fully
enclosed unit mounted on a pad with a small shed for hoses.
• Provide a permanent or portable siphon. This will require a pump to
prime the siphon and some new pipe construction on the water side of
the pond with attachments for hose connections.
GEA Engineering, P.C. - 25 -
The NYSDEC also needed the Town to demonstrate:
• Integrity and condition of the existing 12" drain pipe.
• Conduct cleaning and TV inspection of the 12" dia. drain.
The NYSDEC was receptive to modifying the plan for complete tree removal as follows:
• Remove trees at the toe of the dam area – dry embankment side (fill
area). • Remove trees on the water side of the dam. • Remove trees that are 6" dia. or less. • Remove unhealthy trees • Conduct an annual inspection of the condition of trees, roots. • Implement a Maintenance Plan.
2.4 Summary of Kellard Sessions—Map, Plan, and Report for Dam Maintenance
District, 6/2013 and 3/2014
The Kellard Sessions Consulting, P.C. Map, Plan and Report for Dam Maintenance
District provided information on the Dam, existing conditions of the dam and the need to
create a Dam Maintenance District to bring the dam into compliance with NYSDEC Dam
Safety Regulations. The report proposes the Dam Maintenance District to include 20
properties surrounding the pond which have direct benefits of the pond. The report also
confirms that the future management of the dam must proceed under an Inspection and
Maintenance Plan, an Emergency Action Plan must be developed, records need to be
kept and annual certifications must be provided to the department.
GEA Engineering, P.C. - 26 -
SECTION 3.0
HAZARD CLASSIFICATION EVALUATION
Long Pond Dam is located within a Residential-Rural area, and the associated
downstream hazards include residences, utilities as well as rural/county roadways. It
appears that a structural or a hydraulic failure of the embankment could result in
flooding and damage to homes and downstream structures as shown on the Inundation
Map (Figure 5). There are however, no houses downstream of the dam that would be
inundated by a dam failure. The inundation map also includes Long Pond Road at two
points where the roadway is overtopped and one point along Middle Patent Road.
According to NYSDOT Functional Class Road Viewer, Middle Patent Road is classified
as a Principal Arterial Other. A ‘Principal Arterial Other’ roadway has the following
characteristics:
• Serve corridor movement having trip length and travel density characteristics
indicative of substantial statewide or interstate travel.
• Provide an integrated network without stub connections except where unusual
geographic or traffic flow conditions dictate otherwise
Based on current available studies presented later in this report, Middle Patent Road
also overtops during a 100 year flood event.
Therefore, In accordance with NYSDEC Dam Safety Regulations Part 673, Long Pond
Dam is, in our opinion, a Class B hazard structure.
Class B dams are considered to be Intermediate Hazard Dams whereby the
downstream impact due to a failure of the dam could cause damage to homes and
serious economic loss.
3.1 Dam Reclassification
In order to reduce the impact of flooding at Middle Patent road, a larger spillway than
the existing 6’ wide x 4’ high is required at the Long Pond Dam. The larger the spillway,
the more difficult and expensive it would be to construct. A reduction in the dam’s
hazard classification from a class B to class A would require a smaller spillway. During
discussions between the NYSDEC, the Town of North Castle, and GEA Engineering,
GEA Engineering, P.C. - 27 -
the NYDEC was not receptive to a dam reclassification. The NYSDEC was however
receptive to using a lesser spillway design criteria from 150% to 100% of the 100-yr
storm event flow if it can be demonstrated that no additional significant impact from
flooding at Middle Patent Road would occur. The NYSDEC therefore wants the
following scenarios evaluated:
• 100-yr flow
• 150% of 100-yr flow
• Sunny day dam break failure
• 100-yr flow with dam break
• 150% flow with dam break
The scenarios were evaluated and are presented in Section 6.0 Hydraulic Assessment.
GEA Engineering, P.C. - 28 -
SECTION 4.0
DAM INSPECTIONS
4.1 Safety Inspection
The safety inspection for the Long Pond Dam was performed on August 26, 2015 in
conformance with 6 CRR-NY 673.12. The safety inspection included the following:
• Document review (Section 2.0)
• Review of data
• Visual Safety Inspection
• Corrective Action Assessment
The Visual Safety Inspection Results for the Long Pond Dam are included in Appendix
B. The items inspected in the field are as follows: upstream dam face, downstream dam
face, dam crest, spillway, downstream area, and access roads. The condition of the
dam is satisfactory. The main concerns are the trees and brush located on the crest,
upstream slope, and downstream slope. All trees and brush located on the dam
embankment are required to be removed in accordance with NYSDEC Guidance for the
Design of Dams Section 9.4 Vegetation Control – Trees and Brush (9.4.1). Roots can
cause additional seepage paths, fallen trees can leave large holes in the embankment,
and brush can limit visual inspection, retard grass growth and provide a haven for
burrowing animals. A list of the dam deficiencies and proposed remediation measures is
presented in Table 1.
The records review indicated that the dam has a history of seepage. Seepage is still
occurring in two areas:
1. The south abutment (area at the low level outlet pipe)
2. Central Toe (An area under the large rocks/boulders)
Both seepages are not of immediate concern but they should be monitored and
inspected regularly. The records review also indicated that these two seepages date
back to September 1981. The seepage at the central toe was measured in the field by
GEA Engineering, P.C. - 29 -
confining the seepage flow and collecting in a 1000 ml beaker. Six (6) trials were
performed with an average measured seepage flow rate of 0.78 GPM at the central toe.
4.2 Diver Investigation
On September 24, 2015 GEA supervised a diver inspection of the drain down valve box.
The divers were provided by McLaren Engineering. The diver investigation of the dam
included underwater visual/video inspection of the gate valve and gate valve shaft
structure to determine operability and notable defects. Visual/video inspection was also
used to determine the existence and location of the outlet drain pipe. In addition three
soil core samples were obtained from the pond embankment (pond-side) to determine
whether a pond liner exists and also to ascertain the thickness of the liner. See Section
7.2.7 for soil core sample results from the pond embankment. A copy of the McLaren
Underwater Investigation Field Report is included in Appendix A.
The diver inspection revealed the following:
- The Gazebo in the middle of the pond is a concrete inlet structure for the
low level outlet.
- The concrete inlet structure has a trash rack inlet box located at the
bottom of the pond.
- Trash Rack measured 5 feet long x 3 feet wide and consists of 24 vertical
bars spaced 2 inches on center.
- The concrete inlet structure has deteriorating timber stop log guides, the
timber stop logs would have been used to close the concrete inlet
structure to access the gate valve via the manhole located on the Gazebo
Based on the analyses performed and presented in Table 6, the overturning analysis
results under existing conditions indicate that the location of the resultant force
under cases 1, 2, 3, 3A, and 4 respectively satisfied the conditions required for the
stability of the dam. The conditions of stability are as presented in Section 7.3.1
above and as shown on Figure 8.
Sliding
The factors of safety for cases 1, 2, 3, 3A, and 4 are 8.89, 7.51, 7.48, 7.43, and 2.33
respectively. In each case the factor of safety exceeds the minimum required safety
GEA Engineering, P.C. - 58 -
factors of 2.0 for Case 1 and 2, 1.5 for Case 3 and 3A, and 1.25 for Case 4. These
results indicate that the dam is stable under existing conditions.
7.4 Stability Analysis for Proposed Conditions
The Stability Analysis for Overturning and Sliding were performed for the Proposed
Conditions. The loading conditions analyzed include the following:
• Case 1 – Normal loading condition; water surface at normal reservoir level.
• Case 2 – Normal loading condition; water surface at normal reservoir level plus
an ice load of 5000 pounds per linear foot, where ice load is applicable. Dams
located in more northerly climates may require a greater ice load.
• Case 3 – Design loading condition; water surface at spillway design flood level.
• Case 4 – Seismic loading condition; water surface at normal reservoir level plus
a seismic coefficient applicable to the location.
Case 3A was not considered since under the proposed condition, the dam is never
submerged.
Table 7 presents the results of the stability analysis based on proposed conditions.
Under proposed conditions, the spillway crest elevation is increased thereby increasing
the area of segment 1 shown on Figure 9.
Additionally, the water pressure (Pw) is reduced under case 3 (proposed conditions).
Stability Analysis Results (Proposed Conditions)
Overturning
Based on the analysis and results presented in Table 7, the location of the resultant
forces satisfied the conditions for dam stability under proposed conditions for cases 1,
2, 3, and 4 respectively.
Sliding
The factors of safety for cases 1, 2 3, and 4 were determined to be 8.95, 7.57, 7.31, and
2.33 respectively. In each case, the factor of safety exceeds the minimum required
GEA Engineering, P.C. - 59 -
safety factors of 2.0 for case 1 and 2, 1.5 for case 3, and 1.25 for case 4 for dam
stability.
The factors of safety calculated for the existing and proposed conditions in each case
exceeded the required factors of safety significantly. This result indicates that the dam is
stable under both existing and proposed conditions.
GEA Engineering, P.C. - 60 -
SECTION 8.0
EMERGENCY ACTION PLAN REVIEW
The Long Pond Dam Emergency Action Plan was prepared by GEA Engineering P.C.
on August 14, 2015 in conformance with 6 CRR-NY 673.7. The Emergency Action plan
is currently under review by the NYSDEC.
The Emergency Action Plan was reviewed and revised as part of this Engineering
Assessment. The revised Emergency Action Plan is attached in Appendix G. Revisions
include the removal of the house located at 43 Long Pond Road from the flooded area
on the inundation map after review of the topography and current dam break analysis.
The current dam break analysis was also used to determine if the house located at 45
Long Pond Road was inundated The lowest elevations for house number 43 and 45
Long Pond Road are 450 and 440 feet respectively. The houses are not inundated
because the highest WSEL for the dam break scenarios modeled near these houses is
approximately 436 feet.
GEA Engineering, P.C. - 61 -
SECTION 9.0
CONFORMANCE TO CURRENT DAM REGULATIONS AND SAFETY
The current dam safety regulations are part of the Official Compilation of Codes, Rules
and Regulations of the State of New York, Title 6 CRR-NY Part 673. The dam safety
regulations give authority to the NYSDEC, and responsibilities to dam owners. The
sections of the current regulations that are applicable to this report for the Long Pond
Dam are listed, in a paraphrased form, below:
• [673.3a] Any owner of a dam shall at all times operate and maintain the dam and
all appurtenant works in a safe condition.
• [673.3c] Upon reasonable notice, the owner of a dam shall furnish any available
information which is reasonably necessary for the department’s inspection or
investigation of the dam and appurtenant works, and the assessment of the
safety thereof, including, without limitation, the records and reports required to be
maintained.
• [673.6] Develop and implement an Inspection and Maintenance Plan, the plan
shall be retained by the dam owner, kept in good order, and updated as
necessary to reflect changes in current conditions. Completed attached in
Appendix H.
• [673.7] Develop and implement an Emergency Action Plan and annual updates
thereof. Completed attached in Appendix G.
• [673.8] Submit to the Dam Safety Section an Annual Certification, in a form
prescribed by the department, by January 31 of each year. Previously submitted.
• [673.9] Notify the NYSDEC in writing, in a format acceptable to the department,
within five calendar days of any flow in an erodible auxiliary spillway.
GEA Engineering, P.C. - 62 -
• [673.11] Provide Notices of Property Transfer
• [673.13] Perform Engineering Assessments by a professional engineer at a
minimum every 10 years on behalf of the owner. Engineering Assessment Report
June 2016.
• [673.12] Perform Safety Inspections on a regular basis by a professional
engineer on behalf of the owner as part of the Inspection and Maintenance Plan.
Completed August 26, 2015.
Long Pond Dam is not in conformance with the current Dam Safety Regulations. The
dam owners received a Notice of Violation (NOV) on April 29, 2015 by the NYSDEC
indicating the following violations:
• Owners have not performed the recommended maintenance nor have they
monitored identified deficiencies of the dam.
• Owners have not developed and implemented an Inspection and Maintenance
Plan. Has been remedied, submitted and included in Appendix H.
• Owners have not developed and distributed an Emergency Action Plan. Has
been remedied, submitted and included in Appendix G.
• Owners have not submitted an Annual Certification by January 31 of each year
beginning in 2010. Was submitted August 14, 2015.
• Owners did not complete and submit an Engineering Assessment. Completed
June 2016.
The dam owners are working to address all violations of the NYSDEC Dam Safety
Regulations. Currently the dam owners have prepared an Emergency Action Plan, an
Inspection and Maintenance Plan, Annual Certification and schedules of work that were
GEA Engineering, P.C. - 63 -
submitted to the NYSDEC on August 14, 2015. These have all been updated with this
submittal.
GEA’s Engineering Assessment found the following deficiencies:
Hydraulics/Spillway
The spillway capacity of the dam is not sufficient. The dam is overtopped for the 25
year, 100 year and 150% of the 100 year storm.
Crest and Embankments
There is mature woody vegetation covering crest and embankments
NYSDEC Guidelines for Design of Dams Revised January 1989 Section 9.4.1.
states that trees and brush are not permitted on earth dams
Section 9..4.1 also states that stumps should be removed from existing dams either
by pulling or machine grinding and all woody material should be removed to about 6
inches below the ground surface. The cavity created by stump removal, should be
filled with well compacted soil and with grass vegetation established.
Select trees and vegetation will be removed as per the meeting held on 12/4/15
between NYSDEC, GEA Engineering, and the Town of North Castle.
There are two seepages located on downstream embankment. One of the seepages
is located at the "central toe" (area near large boulders) and the other is located at
the low level drain outlet.
Spillway
The spillway has inadequate capacity. The concrete spillway has spalled,
deteriorated and exposed reinforcing rods. Also a section of one of the concrete
discharge wingwalls is broken off.
Discharge Channel
The spillway discharge channel has inadequate capacity to convey the spillway
design flood to the Duck Pond.
GEA Engineering, P.C. - 64 -
Low Level Drain
The low level drain is not operable. The valve inside the gazebo located in the
middle of the pond is not accessible or operable. The valve is in the closed position.
The 12" cast iron discharge pipe currently has water infiltrating at a joint located
within the dam. Water also appeared to be seeping around the outside of the pipe.
GEA Engineering, P.C. - 65 -
SECTION 10.0
CONCLUSIONS AND SUMMARY OF ACTIONS NEEDED
The Long Pond Dam is a NYSDEC regulated dam, and essential repairs are
recommended in order to maintain a structurally stable dam, embankment, and crest
and also to control the flow of water to prevent downstream flooding.
Recommended Repairs
Removal of Trees
The removal of trees should be conducted as follows:
• Remove trees at the toe of the dam area - dry embankment side (fill area).
• Remove tress on the water side of the dam.
• Remove trees that are 6 inch diameter or less.
• Remove unhealthy trees
• Conduct an annual inspection of the condition of trees and roots.
Figure 10 presents the proposed tree removal plan.
Spillway Reconstruction
The concrete spillway needs to be repaired. The surficial spalling, deterioration, and
exposed reinforcing rods should be repaired with concrete patch work. The spillway
discharge apron voids should be repaired (filled) with concrete. The downstream left
wingwall should also be repaired with concrete. The overgrown vegetation around the
spillway should also be removed.
Add Additional Spillway Capacity
The existing concrete spillway capacity should be supplemented by additional spillway
capacity to service the 100-yr storm. The additional spillway capacity will be sufficient to
pass the 100 year storm. The new spillway structure shall be constructed as a
4'x4'x12.5' (LxWxH) concrete box founded on concrete and stone fill. For this size there
will be four openings, two (2) 2.5 feet by 1 foot at elevation 473.52 and two (2) 2.5 feet
by 1 foot at elevation 471.02. A 3 feet diameter pipe will be required to convey water
from the structure through the dam to the existing spillway discharge channel.
GEA Engineering, P.C. - 66 -
Increase Capacity of Spillway Discharge Channel
The capacity of the spillway discharge channel should also be increased to pass the
100 year storm. The channel should be widened and lined with rip-rap to prevent
erosion. The proposed dimensions of the improved channel will be: 16 to 20 feet top
width, 2 feet depth and 8 to 12 feet bottom width. The required rip rap is to be 6 inch d50
size. the rip rap thickness will be 12 inches plus 4 inches of stone bedding overlaying
geotextile material.
Raise Dam Crest
The dam crest should be raised to elevation 476.02 feet. Raising the dam crest to
476.02 feet provides 1 foot of freeboard within the pond for the 100 year storm event.
Providing 1 foot of freeboard increases the structural stability of the dam. The fill will
consist of silty sand, SM with a minimum of 4 inches of top soil and grass cover.
Abandon Outlet Pipe
After the investigation of the outlet pipe it is recommended that the outlet pipe be
abandoned. The outlet pipe can be abandoned by pumping a low strength concrete with
bentonite into the entire length of pipe or installing a mechanical plug at the outlet. Both
options would require a graded filter blanket placed around the outlet to prevent erosion
around the pipe, due to seepage flowing outside the pipe.
Dam Drawdown
To provide a means to drawdown the dam, it is recommended that an agreement
between the Armonk Fire District and Town of North Castle be negotiated with the
Armonk Fire District to provide a pump truck and hoses to pump down the Long Pond
Dam.
Dam Seepage at "Central Toe" (area near large boulders)
GEA recommends leaving the large boulders in place and monitoring the seepage. The
seepage monitoring should occur quarterly (four times per year) and after significant
storm events.
GEA Engineering, P.C. - 67 -
Following the review of this Report and associated Plans, GEA will need to prepare the
following documents:
o Engineering Plans and Specifications for Dam Repair
o NYSDEC Part 673 Dam Permit Application
o NYSDEC Protection of Waters Permit Application
Upon review and approval by NYSDEC, the Town/District may proceed with
construction. Tree removal is proposed to be conducted in November 2016. Figure 11
provides a detailed schedule of the proposed improvements.
GEA Engineering, P.C. - 68 -
REFERENCES
“DOW 3.1.3 – Emergency Action Plans for Dams,” NYS DEC, June 2010, http://www.dec.ny.gov/lands/4991.html. "DOW 3.1.4 – Guidance for Dam Engineering Assessment Reports" NYS DEC http://www.dec.ny.gov/docs/water_pdf/damfengarpt.pdf "DOW 3.1.5 – Guidance for Dam Hazard Classification" NYS DEC http://www.dec.ny.gov/docs/water_pdf/togs315.pdf "Design of Small Dams" United States Department of The Interior, Bureau of Reclamation, A Water Resources Technical Publication.1977 revised reprint “Design of Gravity Dams” United States Department of The Interior, Bureau of Reclamation, A Water Resources Technical Publication. Denver, Colorado 1976 Environmental Conservation Law 15-0507: Structures impounding waters; structures in waters; responsibility of owner; inspection Environmental Conservation Law 15-0503: Protection of water bodies; permit “Guidelines for Design of Dams,” NYS DEC, 1989. http://www.dec.ny.gov/lands/4991.html New York State Regulations Title 6 of the Official Compilation of Codes, Rules and Regulations of the State of New York (6 NYCRR): Part 608 – Protection of Waters Part 621 – Uniform Procedures (includes Emergency Authorization) Part 673 – Dam Safety NOAA Atlas 14 Precipitation-Frequency Atlas of the United States Volume 10 Version 2.0: Northeastern States (Connecticut, Maine, Massachusetts, New Hampshire, New York, Rhode Island, Vermont) (Perica, et al., 2015) “Owners Guidance for the Inspection and Maintenance of Dams in New York” NYS DEC, June 1987, http://www.dec.ny.gov/lands/4991.html. “Stability of Earth and Rock-Fill Dams”, EM 1110-2-1902; April 1970. Bureau of Reclamation; U.S. Department of the Interior. State of Colorado Dam Safety Branch,. (2010). Guidelines for Dam Breach Analysis. United States Army Corps of Engineers,. (2014). Using HEC-RAS for Dam Break Studies. TD-39.