Saa Samuel Edward Fanday
Atlanta, GA 30318
Email: acd5l5@r.postjobfree.com
Phone: 678-***-****
Position: Environmental Project Manager
1. Education
Georgia Institute of Technology (Georgia Tech)
-Bachelor of Science in Chemical Engineering
-Certification in Pulp and Paper Technologies
-United States patent pending: Contaminated ALL HEAVY METALS wastewater
treatment technologies. Developed proprietary and specialty chemical
formulations to treat contaminated soil and water.
2. Work history: 1998 -2011
-Chief application technologies development engineer/Principal project
manager - Pellu Systems, Atlanta, GA
Duties:
-Design and implemented feasibility/bench top studies
-Design, built and managed pilot projects/units
-Design, built, and installed full treatment systems
-Oversaw consulting and management services for ongoing projects
-Researched and developed specialty chemical formulations for environmental
technologies applications (water and air)
3.0 Project references
Principal project manager - Designed/Built/ Installed groundwater heavy
metals/organics remediation with Hydrodynamics, Inc. Ocala, FL.
Groundwater remediation project at Vandenberg Air Force base, Lompoc,
Santa Barbara County, CA
-Prime contractor: Tetra Tech (Santa Barbara)
-Sub contractor: Pellu Systems (Atlanta, GA)/Hydrodynamics Corp
(Ocala, FL)
Phase I: Design/built/installed a fully automated/SCADA groundwater
remediation system at the landfill in Vandenberg Air Force base, Lompoc,
CA..
Phase II: Pellu Systems (Atlanta, GA)/Risc Management (Oklahoma) - provided
continuous project management and consulting services for the duration of
the project (1998 - 2005).
4. Principal investigator - feasibility and pilot projects design and
implementations
A. Phase I: Feasibility/bench top and pilot projects - 2006/2007.
Project site: Casmalia superfund site, Casmalia, California
Feasibility studies were conducted at the Casmalia superfund site to clean
up contaminated landfill leachates and run-offs.
Landfill leachates contaminants were:
-Highly complexed total organic carbon (TOCs), volatile organics carbons
(VOCs)
-Total sulfides (odor emitting factors)
-Heavy metals (Ni, Cd, Hexavalent chrome, Pb, Cu, Zn and others)
-Highly complexed ammonia (occurring as total ammonia, TKN)
Project managers: CB Consulting, San Luis Obispo, CA
B: Phase 1: Feasibility/bench top Studies - 2005/2006
Project Site: McClellan Air force Base, Sacramento, California (now
closed)
Project Managers: Anteon Corp (Sacramento, Albert Calise, project manager)
The base had an existing groundwater remediation plant. The Air force was
looking for better water technologies related to the project of removing
hexavalent chrome and total organics.
C: Phase 1: Feasibility/bench top and Pilot projects - 2007/2008.
Project Site: US Filter (now Siemens Water Technologies) Centralized
Wastewater Treatment Plant (Los Angeles)
The centralized wastewater treatment plant is US EPA regulated. The plant
was looking for more cost effective and efficient treatment technologies.
General Manager: Ken Olunixon
5.0 Phase 1: Feasibility/bench top studies - 2010.
Project Site: working with the Pulp and Paper Department at the School
of Chemical Engineering, Georgia Tech, application technologies development
studies were conducted to improve on treatment technologies to remove and
prevent color reversal in already treated wastewater at a pulp and paper
mill wastewater systems in a South Georgia paper mill.
6.0 Development of Proprietary formulations for In-Situ-Chemical-Reduction
(ISCR) of soil contaminated with heavy metals, including all RCRA metals
(Chrome (Cr), Arsenic (As), Silver (Ag), Barium (Ba), Cadmium (Cd), Mercury
(Hg), Lead (Pb), Selenium (Se)).
-Developed proprietary formulations to treat soils contaminated with ALL
heavy metals. The verification of formulation was conducted independent US
EPA approved lab soil contaminated with Hexavalent Chrome from a US EPA
superfund site in Colliervill,TN.
The formulation reacts by immobilizing toxic metals in contaminated soils,
e.g. highly mobile and toxics. Hexavalent chrome is reduced and immobilize
to the less toxic trivalent chrome
7.0 In-Situ-Chemical-Oxidation (ISCO) Design and Implementation
-performed lab treatability studies on contaminate oil and groundwater
-to optimize various remediation technology sweet spot
-establish technology performance variables
-interpret treatability studies results for efficiency and cost
effectiveness
-evaluate treatment train approach (chemical
oxidation/bioremediation)
-Calculated Soil Oxidant Demand (SOD)
-evaluated the oxidant sink factor for project soil and groundwater
-Developed the contaminated treatment site information
-geological soil profile (e.g. Saprolite, Piedmont type soils)
-Treatment site dimensions (depth to groundwater, length, width of target
zone etc.)
-soil data
-Contaminant type (PCE, TCE, cis 1, 2-DCE, PAHs, MTBE BTEX, TPHs)
-geochemical information (pH, ORP)
-Monitoring of project
-process monitoring to confirm oxidant distribution
-oxidant performance