Contamination Assessment/Remedial Engineering
Bellmore, NY
HES was
retained to conduct an assessment of a gasoline spill to the sole source
aquifer on Long Island. Our investigation included an
accelerated site characterization using a portable field laboratory, and
determination of the vertical and areal extent of gasoline impacts to
the underlying aquifer. The project included a remedial system
design and implementation for site cleanup and long-term operation, maintenance and
monitoring of the site.
White Plains, NY
HES led an assessment of the impact of a large
gasoline spill for the New York State Department of Environmental Conservation (NYSDEC) Region 3 Office.
This project included subsurface investigations of the overburden and bedrock
aquifers beneath the site, pilot test studies and remedial system design
for site cleanup. HES's remedial system design included the
application of dual phase high vacuum extraction and pump and treat
technologies.
Port Jefferson, NY
To delineate the extent of hydrocarbon
compounds in soil and groundwater beneath a former petroleum bulk
storage facility in Port Jefferson, NY, HES installed 38 monitor
wells at the site. Based on the results of the subsurface investigation and pilot
testing, HES designed a suitable remediation system for the site. The
system included two groundwater recovery wells, and two Soil Vapor
Extraction (SVE) trench systems. HES interfaced and coordinated this
project with the New York State Department of Environmental Conservation (NYSDEC)
Region 1 Office regulatory personnel.
Hastings-on-Hudson, NY
An innovative subsurface investigation
program was designed by HES using the Geoprobe drilling method to
determine the horizontal and vertical extent of No. 6 fuel oil and dense
non-aqueous phase liquid (DNAPL) (chlorinated solvent) impact on soil
and groundwater along the property boundary of a former petroleum bulk
storage facility located in Hastings-on-Hudson, NY. Based on the
results of the subsurface investigation, HES designed a remediation plan
for the area affected by the No. 6 fuel oil. HES interfaced and
coordinated this project with regulatory personnel from the New York State Department of
Environmental Conservation (NYSDEC)
Region 3 Office.
Bayside, NY
HES directed an environmental investigation and UST
removal in Bayside, which involved a Risk Based Corrective Action (RBCA)
approach to site assessment and remedial determination. Based upon
observations and data collected during site activities, HES determined that the most reliable remedial
strategy was through the application of Soil Vapor Extraction (SVE) technology.
Albany/Schenectady, NY
HES's offices have managed five projects
for a major gasoline distributor/vendor related to remediation of
hydrocarbon impacted groundwater through the use of vapor extraction,
air sparging, and pump and treat remediation technologies.
Additionally, HES conducts compliance groundwater sampling and
reporting at such sites to determine the best course of action and ensure
compliance with regulatory agencies. HES
maintains continual contact with the New York State Department of Environmental
Conservation (NYSDEC) during project activities.
Water Supply
Putnam Valley, NY
Community leaders in Putnam Valley
retained HES to create groundwater resource overlay maps and delineate
aquifer protection zones on a town-wide basis. Maps were subsequently
used to recommend zoning changes to the Town Code to promote
environmentally sound development practices in designated aquifer
protection zones. Our study was completed as part of the Town master
plan.
Rockaway Beach and New York City
HES has completed construction
dewatering projects by calculating aquifer parameters to determine the number of
wells and volume and duration of pumping during large construction
projects. The calculations completed by HES allowed for accurate well
placement and groundwater pumping so that building foundations, parking
garages and waterproofing could be properly installed.
Water Supply/Remedial Engineering
Dobbs Ferry, NY
To address various
geotechnical issues outlined by the Town of Dobbs Ferry Planning
Department, HES conducted an environmental and subsurface investigation.
The investigation included collection of groundwater samples to
determine groundwater quality beneath the subject property, and
collection of subsurface soil data to determine slope stability and the
nature and areal extent of a former construction and demolition (C&D)
debris landfill area. The C&D area was investigated to determine the
feasibility of constructing proposed condominium units. HES assisted
with the proposed construction design and soil vapor remediation
methodologies, as well as interfacing the project with the Westchester
County Department of Health (WCDOH) and the New York State Department of
Environmental Conservation (NYSDEC) Region 3 Office.
Environmental Insurance Claims
Gibbstown, NJ
HES completed environmental oversight during the remediation of a residential
fuel oil spill on behalf of a major insurance carrier. Site activities included
delineation of the fuel oil spill in the soil and groundwater beneath the site,
remediation action oversite, soil and groundwater quality sampling, and reporting to
the New Jersey Department of Environmental Protection (NJDEP) for project review.
Legal Support/ Surface Water Hydrology
Old Forge, NY
HES was
retained to provide technical assistance to legal counsel for a private
club in the Adirondack Mountains regarding a legal case over the
navigability of a privately owned wilderness river. This project
included calculating stream discharge from the historical record,
application of fluvial geomorphological principles, and design and
installation of a stream gauge on the river.
Bethel, NY
The legal counsel for a private hunting and fishing
club retained HES to provide expert testimony on behalf of the club
regarding reservoir navigability rights to the general public. HES was
retained to estimate historical stream flows on the streams tributary to an
existing reservoir, prior to retaining dam construction. The project
included setup of five field and gaging stations for data collection
purposes, and application of hydrologic principles using available
Geographical Information System (GIS)
and stream profiling computer software.