This document provides a summary of Peter Dickson's selected project experience including general hydro projects, hydroelectric pumped storage and compressed air energy storage projects, navigation, water supply, flood control, and wastewater projects, and mining projects. It lists over 100 projects across various sectors and locations around the world that Peter Dickson has worked on. Many of the projects involved large dams, reservoirs, tunnels, shafts, and caverns and required special considerations for seismic activity.
Este documento presenta un proyecto de investigación que busca aplicar una metodología integradora de procesos empresariales utilizando el modelo SCOR y las TIC para mejorar la gestión de producción de la empresa agroindustrial Pomalca S.A.A. El proyecto es desarrollado por un grupo de estudiantes y su asesor de la facultad de ciencias empresariales. Describe el proceso productivo de caña de azúcar de Pomalca y plantea la necesidad de implementar nuevas tecnologías para optimizar la gestión.
The document provides information about hydroelectric power plants and dams. It discusses how hydroelectric power works by converting the potential and kinetic energy of water into electricity. It also outlines the basic components of hydroelectric plants including reservoirs, dams, turbines, and powerhouses. Several examples of large hydroelectric plants and dams from around the world are mentioned like Hoover Dam, Three Gorges Dam, and Itaipu Dam. Key statistics about the world's largest hydroelectric plants by capacity, storage, and height are also summarized in tables.
The document summarizes energy research at the University of Alaska Fairbanks' Alaska Center for Energy and Power (ACEP). ACEP's mission is to develop cost-effective energy solutions for Alaska through applied research, technology testing, energy analysis, training, and commercializing innovation. Key areas of research include solar, hydrokinetic, and battery technologies as well as power systems integration. ACEP also disseminates information and provides training programs like the Arctic Remote Energy Networks Academy. One project discussed is the proposed Yakutat Wave Energy Project which would use wave energy to power the remote city of Yakutat currently reliant on diesel.
This document provides a project experience summary listing over 40 wastewater, water, transportation, and community facility projects the author has worked on. The wastewater projects include treatment plants, tunnels, interceptors, and pumping stations located across the western United States. Water projects involve storage reservoirs, water treatment plants, and distribution systems. Community facility experience includes visitor centers and hatcheries. A variety of public agency clients in multiple states are represented.
The document discusses hydroelectric power generation from hydropower plants. It provides information on the basic components and classifications of hydropower plants, as well as the various types of water turbines used. Examples are given of large hydropower dams from around the world, classified by generation capacity, storage capacity, and height. Key information included are the locations, specifications, and generation capacities of major international hydropower facilities.
As California moves toward meeting its greenhouse gas reduction and renewable energy goals, the state’s electric grid is expected to evolve rapidly. Increased renewable energy on the grid will present grid operators with new challenges, such as short, steep electricity demand ramps and fewer conventional resources that maintain electric grid stability. Bulk energy storage, which includes pumped hydroelectric energy storage and other large-scale energy storage methods, is seen as a key resource to help meet the challenges of renewable energy integration onto California’s electric grid.
In November 2015, California Energy Commission Chair Robert Weisenmiller and California Public Utilities Commission President Michael Picker conducted a workshop to discuss bulk energy storage in California. The workshop included speakers from California’s energy agencies, utilities, energy storage developers, and other stakeholders. Workshop speakers presented on several topics, including the challenges of planning the electric grid and developing future bulk energy storage projects, the potential for bulk energy storage to address grid challenges, and the operations of existing bulk energy storage projects in California.
This paper summarizes the presentations and public comments from the bulk energy storage workshop, as well as the written comments submitted after the workshop.
Este documento presenta un proyecto de investigación que busca aplicar una metodología integradora de procesos empresariales utilizando el modelo SCOR y las TIC para mejorar la gestión de producción de la empresa agroindustrial Pomalca S.A.A. El proyecto es desarrollado por un grupo de estudiantes y su asesor de la facultad de ciencias empresariales. Describe el proceso productivo de caña de azúcar de Pomalca y plantea la necesidad de implementar nuevas tecnologías para optimizar la gestión.
The document provides information about hydroelectric power plants and dams. It discusses how hydroelectric power works by converting the potential and kinetic energy of water into electricity. It also outlines the basic components of hydroelectric plants including reservoirs, dams, turbines, and powerhouses. Several examples of large hydroelectric plants and dams from around the world are mentioned like Hoover Dam, Three Gorges Dam, and Itaipu Dam. Key statistics about the world's largest hydroelectric plants by capacity, storage, and height are also summarized in tables.
The document summarizes energy research at the University of Alaska Fairbanks' Alaska Center for Energy and Power (ACEP). ACEP's mission is to develop cost-effective energy solutions for Alaska through applied research, technology testing, energy analysis, training, and commercializing innovation. Key areas of research include solar, hydrokinetic, and battery technologies as well as power systems integration. ACEP also disseminates information and provides training programs like the Arctic Remote Energy Networks Academy. One project discussed is the proposed Yakutat Wave Energy Project which would use wave energy to power the remote city of Yakutat currently reliant on diesel.
This document provides a project experience summary listing over 40 wastewater, water, transportation, and community facility projects the author has worked on. The wastewater projects include treatment plants, tunnels, interceptors, and pumping stations located across the western United States. Water projects involve storage reservoirs, water treatment plants, and distribution systems. Community facility experience includes visitor centers and hatcheries. A variety of public agency clients in multiple states are represented.
The document discusses hydroelectric power generation from hydropower plants. It provides information on the basic components and classifications of hydropower plants, as well as the various types of water turbines used. Examples are given of large hydropower dams from around the world, classified by generation capacity, storage capacity, and height. Key information included are the locations, specifications, and generation capacities of major international hydropower facilities.
As California moves toward meeting its greenhouse gas reduction and renewable energy goals, the state’s electric grid is expected to evolve rapidly. Increased renewable energy on the grid will present grid operators with new challenges, such as short, steep electricity demand ramps and fewer conventional resources that maintain electric grid stability. Bulk energy storage, which includes pumped hydroelectric energy storage and other large-scale energy storage methods, is seen as a key resource to help meet the challenges of renewable energy integration onto California’s electric grid.
In November 2015, California Energy Commission Chair Robert Weisenmiller and California Public Utilities Commission President Michael Picker conducted a workshop to discuss bulk energy storage in California. The workshop included speakers from California’s energy agencies, utilities, energy storage developers, and other stakeholders. Workshop speakers presented on several topics, including the challenges of planning the electric grid and developing future bulk energy storage projects, the potential for bulk energy storage to address grid challenges, and the operations of existing bulk energy storage projects in California.
This paper summarizes the presentations and public comments from the bulk energy storage workshop, as well as the written comments submitted after the workshop.
MTB Project Management Professionals is a Denver-based company that provides global project development, management, and consulting services for large-scale industrial, mining, and environmental projects. They were founded in 1994 and offer services throughout project phases including feasibility studies, engineering and procurement, construction management, claims support, and due diligence reviews for clients in various industries. The document provides details on MTB's services, clients, projects, typical project organization structures, and use of communication tools.
The document discusses California's major state water projects and aqueduct systems. It describes how the California State Water Project transports water from Northern and Central California to Southern California via aqueducts, tunnels and pipelines. It also discusses the Los Angeles Aqueduct and Colorado River Aqueduct as two other major water conveyance systems that provide water to Southern California. The Feather River System and Lake Oroville are also mentioned as key parts of the State Water Project.
This document discusses geothermal development in Canada. It provides an overview of Canada's current electricity supply sources and natural resources sector. It introduces the Canadian Geothermal Energy Association (CanGEA) as the collective voice of Canada's geothermal energy industry that promotes geothermal energy potential through outreach events. The document outlines some of CanGEA's member companies and current geothermal projects in Canada at different stages of development. It also notes some of the international geothermal activities of Canadian companies. Finally, it discusses challenges around the public perception of geothermal energy and the need for improved representation, marketing, and visibility to help position geothermal energy.
This document lists various locations around the world including countries, cities, and project sites. It mentions that PSMJ Resources, Inc. has office locations in Canada and Australia. It also lists several recent award winners and projects the company has worked on in locations like Alaska, California, Peru, Mongolia, and Papua New Guinea.
The document summarizes the winners of the 2008 ACEC/South Dakota Engineering Excellence Awards. It recognizes several civil engineering projects in South Dakota with Merit Awards and Honor Awards, including improvements to sewer, water, and transportation systems. It highlights the outstanding achievements being recognized and congratulates the award recipients. The top Grand Award was given to Cliff Avenue Corridor Improvements in Sioux Falls for its access management and safety improvements.
Preliminary plans for pumped storage at Columbia GorgeNate Sandvig
Clean Power Development has applied for a preliminary permit for the proposed Columbia Gorge Renewable Energy Balancing Project in the US. This 1200MW closed-loop pumped storage facility will be a sustainable brownfield redevelopment of the
former Columbia Gorge Aluminium smelter that closed in 2003.
1) Hydroelectric power has significant untapped potential in Pakistan to help address the country's energy needs.
2) Pakistan currently generates around 35% of its energy from hydropower but has an estimated potential of over 41,000MW, most of which remains unutilized.
3) Harnessing more of Pakistan's hydro potential through projects like Diamer-Bhasha Dam could help reduce the country's reliance on expensive and imported fossil fuels for energy generation.
The Wakefield Park South Stream Restoration project in Fairfax County, VA was completed ahead of schedule and on budget. The project restored 2,700 linear feet of streams that feed into Accotink Creek using natural channel design techniques. This included establishing stable channels and floodplains, installing structures to reduce erosion and improve habitat, and reducing nitrogen, phosphorus, and sediment runoff into Accotink Creek. The project was a collaboration between Fairfax County agencies and private contractors.
The document outlines several water and wastewater projects completed by an MEP design firm. It describes projects including a regional sewer system in Pocahontas County serving commercial and residential customers with a capacity of 550,000 gallons per day at a cost of $200 million. It also details a wastewater treatment plant in Mount Weather, Virginia with a capacity of 180,000 gallons per day at a cost of $20 million. Multiple pump stations are outlined across Virginia and Maryland with capacities ranging from 100,000 to 266,000,000 gallons per day and costs ranging from $12 to $18 million.
Ontario's electricity prices are expected to increase 50% in the coming years according to the long term energy plan. This will negatively impact Ontario's competitiveness and could cause companies to leave. Several large solar and wind farms have been built in Ontario with private and First Nations investment. First Nations are actively participating in renewable energy projects across Canada which provide economic opportunities.
Max Simnitt_03-2016_Work History DetailsMax Simnitt
This document provides a detailed summary of Max Simnitt's work experience including his roles and responsibilities in project management, operations management, business development, cost estimating, scheduling, and project controls for various energy companies over 25+ years. He has extensive experience managing all phases of LNG and gas infrastructure projects from engineering to construction and operations. Representative clients include Shell, Ensign, EnCana, and other major energy companies.
The Sihwa Tidal Power Plant project in South Korea involved constructing a 254MW tidal power plant using 10 turbines along the Sihwa Tide Embankment to generate electricity from the tidal changes in Sihwa Lake. The goals of the project were to develop renewable energy supplies, improve water quality in Sihwa Lake, reduce annual oil consumption by 862,000 barrels and lower CO2 emissions by 315,000 tons. The project was completed between 2003-2010 at a cost of US$355.1 million.
Introducing the Hualapai Valley Solar ProjectMitchellDong
Presentation by Mitchell Dong on September 22, 2009. Mohave Sun Power Executive Director introduces plan to build 340 megawatt solar power project in Mohave Desert.
The document discusses several large hydroelectric power plants around the world. It provides details on three major hydroelectric plants:
1) The Itaipu Dam on the Brazil/Paraguay border which has an annual production of over 90 billion kWh and is one of the largest hydroelectric plants in the world.
2) The Three Gorges Dam in China which is the largest hydroelectric dam ever built and has an installed capacity of over 22 GW.
3) The Grand Coulee Dam in the US which has an installed capacity of over 6.8 GW and is the largest power producing facility in the country.
Edward P. Warren has over 30 years of experience as a senior project manager and RCC dam specialist. He has worked on large infrastructure projects in 10 countries, including dams, hydropower projects, and water resource developments. Currently he provides consulting services for RCC dam projects internationally. He is recognized as an expert in the construction of large RCC dams, with extensive experience overseeing quality control and serving as the resident engineer.
The Southern Delivery System (SDS) is a 50-mile pipeline project in Colorado that will provide water from the Arkansas River to Colorado Springs and other communities. Construction of the pipeline involved overcoming geological and logistical challenges, including tunneling under a railroad and allowing ATV access during construction through designated crossings. Community engagement efforts like ongoing resident communication helped mitigate disruption from the 6.4-mile section that passed through 125 residential yards. The project is expected to come in under its nearly $1 billion budget due to contracting the pipeline in sections to encourage competitive bidding.
Daniel Scales has experience managing various industrial, government, and special projects related to fuel storage tank removal and replacement, landfill closure, hazardous waste cleanup, and water treatment systems. Some of the projects he worked on include underground fuel tank removal at Hickam Air Force Base in Hawaii, landfill closure in Peke'ekeo, Hawaii, and new fueling facilities at Schofield Barracks and multiple US Marine Corps bases. He has managed projects across California, Hawaii, Nevada, and Arizona for the US Air Force, Navy, Army Corps of Engineers, and various state and local governments.
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Similar to Peter Dickson Selected Project Experience
MTB Project Management Professionals is a Denver-based company that provides global project development, management, and consulting services for large-scale industrial, mining, and environmental projects. They were founded in 1994 and offer services throughout project phases including feasibility studies, engineering and procurement, construction management, claims support, and due diligence reviews for clients in various industries. The document provides details on MTB's services, clients, projects, typical project organization structures, and use of communication tools.
The document discusses California's major state water projects and aqueduct systems. It describes how the California State Water Project transports water from Northern and Central California to Southern California via aqueducts, tunnels and pipelines. It also discusses the Los Angeles Aqueduct and Colorado River Aqueduct as two other major water conveyance systems that provide water to Southern California. The Feather River System and Lake Oroville are also mentioned as key parts of the State Water Project.
This document discusses geothermal development in Canada. It provides an overview of Canada's current electricity supply sources and natural resources sector. It introduces the Canadian Geothermal Energy Association (CanGEA) as the collective voice of Canada's geothermal energy industry that promotes geothermal energy potential through outreach events. The document outlines some of CanGEA's member companies and current geothermal projects in Canada at different stages of development. It also notes some of the international geothermal activities of Canadian companies. Finally, it discusses challenges around the public perception of geothermal energy and the need for improved representation, marketing, and visibility to help position geothermal energy.
This document lists various locations around the world including countries, cities, and project sites. It mentions that PSMJ Resources, Inc. has office locations in Canada and Australia. It also lists several recent award winners and projects the company has worked on in locations like Alaska, California, Peru, Mongolia, and Papua New Guinea.
The document summarizes the winners of the 2008 ACEC/South Dakota Engineering Excellence Awards. It recognizes several civil engineering projects in South Dakota with Merit Awards and Honor Awards, including improvements to sewer, water, and transportation systems. It highlights the outstanding achievements being recognized and congratulates the award recipients. The top Grand Award was given to Cliff Avenue Corridor Improvements in Sioux Falls for its access management and safety improvements.
Preliminary plans for pumped storage at Columbia GorgeNate Sandvig
Clean Power Development has applied for a preliminary permit for the proposed Columbia Gorge Renewable Energy Balancing Project in the US. This 1200MW closed-loop pumped storage facility will be a sustainable brownfield redevelopment of the
former Columbia Gorge Aluminium smelter that closed in 2003.
1) Hydroelectric power has significant untapped potential in Pakistan to help address the country's energy needs.
2) Pakistan currently generates around 35% of its energy from hydropower but has an estimated potential of over 41,000MW, most of which remains unutilized.
3) Harnessing more of Pakistan's hydro potential through projects like Diamer-Bhasha Dam could help reduce the country's reliance on expensive and imported fossil fuels for energy generation.
The Wakefield Park South Stream Restoration project in Fairfax County, VA was completed ahead of schedule and on budget. The project restored 2,700 linear feet of streams that feed into Accotink Creek using natural channel design techniques. This included establishing stable channels and floodplains, installing structures to reduce erosion and improve habitat, and reducing nitrogen, phosphorus, and sediment runoff into Accotink Creek. The project was a collaboration between Fairfax County agencies and private contractors.
The document outlines several water and wastewater projects completed by an MEP design firm. It describes projects including a regional sewer system in Pocahontas County serving commercial and residential customers with a capacity of 550,000 gallons per day at a cost of $200 million. It also details a wastewater treatment plant in Mount Weather, Virginia with a capacity of 180,000 gallons per day at a cost of $20 million. Multiple pump stations are outlined across Virginia and Maryland with capacities ranging from 100,000 to 266,000,000 gallons per day and costs ranging from $12 to $18 million.
Ontario's electricity prices are expected to increase 50% in the coming years according to the long term energy plan. This will negatively impact Ontario's competitiveness and could cause companies to leave. Several large solar and wind farms have been built in Ontario with private and First Nations investment. First Nations are actively participating in renewable energy projects across Canada which provide economic opportunities.
Max Simnitt_03-2016_Work History DetailsMax Simnitt
This document provides a detailed summary of Max Simnitt's work experience including his roles and responsibilities in project management, operations management, business development, cost estimating, scheduling, and project controls for various energy companies over 25+ years. He has extensive experience managing all phases of LNG and gas infrastructure projects from engineering to construction and operations. Representative clients include Shell, Ensign, EnCana, and other major energy companies.
The Sihwa Tidal Power Plant project in South Korea involved constructing a 254MW tidal power plant using 10 turbines along the Sihwa Tide Embankment to generate electricity from the tidal changes in Sihwa Lake. The goals of the project were to develop renewable energy supplies, improve water quality in Sihwa Lake, reduce annual oil consumption by 862,000 barrels and lower CO2 emissions by 315,000 tons. The project was completed between 2003-2010 at a cost of US$355.1 million.
Introducing the Hualapai Valley Solar ProjectMitchellDong
Presentation by Mitchell Dong on September 22, 2009. Mohave Sun Power Executive Director introduces plan to build 340 megawatt solar power project in Mohave Desert.
The document discusses several large hydroelectric power plants around the world. It provides details on three major hydroelectric plants:
1) The Itaipu Dam on the Brazil/Paraguay border which has an annual production of over 90 billion kWh and is one of the largest hydroelectric plants in the world.
2) The Three Gorges Dam in China which is the largest hydroelectric dam ever built and has an installed capacity of over 22 GW.
3) The Grand Coulee Dam in the US which has an installed capacity of over 6.8 GW and is the largest power producing facility in the country.
Edward P. Warren has over 30 years of experience as a senior project manager and RCC dam specialist. He has worked on large infrastructure projects in 10 countries, including dams, hydropower projects, and water resource developments. Currently he provides consulting services for RCC dam projects internationally. He is recognized as an expert in the construction of large RCC dams, with extensive experience overseeing quality control and serving as the resident engineer.
The Southern Delivery System (SDS) is a 50-mile pipeline project in Colorado that will provide water from the Arkansas River to Colorado Springs and other communities. Construction of the pipeline involved overcoming geological and logistical challenges, including tunneling under a railroad and allowing ATV access during construction through designated crossings. Community engagement efforts like ongoing resident communication helped mitigate disruption from the 6.4-mile section that passed through 125 residential yards. The project is expected to come in under its nearly $1 billion budget due to contracting the pipeline in sections to encourage competitive bidding.
Daniel Scales has experience managing various industrial, government, and special projects related to fuel storage tank removal and replacement, landfill closure, hazardous waste cleanup, and water treatment systems. Some of the projects he worked on include underground fuel tank removal at Hickam Air Force Base in Hawaii, landfill closure in Peke'ekeo, Hawaii, and new fueling facilities at Schofield Barracks and multiple US Marine Corps bases. He has managed projects across California, Hawaii, Nevada, and Arizona for the US Air Force, Navy, Army Corps of Engineers, and various state and local governments.
Similar to Peter Dickson Selected Project Experience (20)
1. 1
Peter Dickson – Selected Project Experience
General Hydro Projects
Project Client
Neelum-Jhelum Hydroelectric Project, Pakistan Water and Power Development Authority
(WAPDA) of Pakistan
AMP Ohio Hydro: Cannelton, Smithland, Willow
Island, Meldahl Projects
American Municipal Power (AMP), Ohio
Susitna Watana, Alaska Alaska Electricity Authority (AEA)
Curibamba Hydroelectric Project, Peru EDEGEL and Endesa, Peru
Los Condores Hydroelectric Project, Chile Endesa, Chile
Proyectos HidroAysen, Chile: Baker 1, Baker 2,
Pasqua 1, Pasqua 2.1, Pasqua 2.2, del Salto
HidroAysen, Chile
San Pedro Hydroelectric Project, Chile Colbun, Chile
John Hart Hydroelectric Project, Canada BC Hydro, Canada
Ruskin Powerhouse Improvement Project,
Canada
BC Hydro, Canada
Dasu Dam & Hydroelectric Project, Pakistan Water and Power Development Authority
(WAPDA) of Pakistan
Tekeze Dam and Hydroelectric Project, Ethiopia Ethiopian Electric Power Corporation (EEPCO)
El Cajon Dam & Hydroelectric Project, Mexico CFE and CIISA, Mexico
Mosul Dam, Badush, Bekhme; International Panel
of Experts - Iraq
Ministry of Water and Energy Resources, Iraq
Pinalito Hydroelectric Project, Dominican Republic Corporacion Delacueducto y Alcantarilla,
Dominican Republic
Strontia Springs Water Supply Dam and
Hydroelectric Project, Colorado
Denver Water, Colorado
Karahnjukar Dam & Hydroelectric Project, Iceland Landsvjirkjun, Iceland
Kotli Hydropower Project, Pakistan Mira Pakistan Limited, Pakistan
Diamer-Basha Dam and Hydro Project, Pakistan Water and Power Development Authority
(WAPDA) of Pakistan
Alpaslan II Dam & Hydro Project, Turkey Devlet Su Isleri (DSI) Turkey
Yuncan Hydroelectric Project, Peru ElectroAndes, Peru
Tayucay Hydroelectric Project, Venezuela EDELCA, Venezuela
Amaila Falls Hydroelectric Project, Guyana Synergy Holdings, Inc.; Sithe Energy; Guyana
Durak Hydroelectric Project, Turkey Devlet Su Isleri (DSI) Turkey
Rio Hondo Hydroelectric Project, Guatemala Enron Energy International, Guatemala
Rio Cangrejal Hydroelectric Project, Honduras Hydro Honduras
Boyabat Dam and Hydro Project, Turkey Dogus Construction and Trading Co., Turkey
Bujagali Hydroelectric Project, Uganda International Finance Corporation (IFC), Uganda
Niksar HEPP, Turkey Confidential, Turkey
Buk Bijela, Srpske Confidential, Srpske
Nam Mo Hydroelectric Project, Laos Harza IDC and Mahawongse Group Co., Ltd.,
Laos
Patuca II Hydroelectric Project, Honduras Panda Energy International, Inc., Honduras
Taquesi Hydroelectric Project, Bolivia International Finance Corporation, IFC; Bolivia
Reventador Hydroelectric Project, Ecuador Confidential, Ecuador
Torola Hydroelectric Project, El Salvador Comision Ejecutiva Hidroelectrica del Rio Lempa
(CEL), El Salvador
Aslancik Hydroelectric Power Project, Turkey Dogus Construction and Trading Co., Turkey
Paidha Hydroelectric Project, Uganda Uganda Electricity Board & Ministry of Natural
Resources, Uganda
2. 2
Zhinvali Hydroelectric Project, Republic of
Georgia
Infrastructure Capital Group; Rep. Georgia
Shnokh Hydroelectric Project, Armenia USAID; Armenia
Quitaracsa I Hydroelectric Project, Peru Illinova Generating Company, Peru
Se Pian - Se Namnoy Hydroelectric Project, Laos Dong Ah Construction Ltd.; Laos
Private Minihydro Development, Philippines Pacific Hydro Power Corporation, Philippines
Cimarrón Dam & Hydro Project, El Salvador Comision Ejecutiva Hidroelectrica del Rio Lempa
(CEL), El Salvador
Alto Piura Project, Peru Direction Ejecutiva del Proyecto Especial
Hidroenergetico del Alto Piura, Peru
Lake Mainit Mini-Hydroelectric Project, Philippines H.E.I., Inc., Hawaii
Private Hydropower Development, Laos Sithe Energies, Inc., Laos
Dhamwari Hydel and Hibra Hydel, HP, India Resource Development Corp. and Infratech, India
Upper Indravati Hydroelectric Project, India World Bank and Department of Energy, State of
Orissa, India
Shivasamudram Hydroelectric Project, India Resource Development Corp. and Infratech, India
Kentucky Lake, Fort Loudon, Beech River, Blue
Ridge, Guntersville, Pickwick Landing, and Tellico
Projects, USA
Tennessee Valley Authority
Auger Falls Hydro, Idaho Idaho Power Company
Elwha and Glines Canyon Dam Projects,
Washington
Crown-Zellerbach, James River Corporation
Ambodiroka Hydroelectric Project, Madagascar US Trade and Development Program and
JIRAMA, Madagascar
Koudiat Acerdoune Dam Project, Algeria Agence Nationale des Barrages
Beni Haroun Dam and Hydro Project, Algeria Agence Nationale des Barrages
Black Bear Lake Project, Alaska Alaska Power Authority
Represas Patagonia, Santa Cruz River, Argentina Hidroengineria, UTE
• 47 of the above projects involve large dams and reservoir impoundments
• 33 involve significant tunneling & shafts
• 13 involve power station caverns
• 33 are located in seismically active regions requiring special seismic hazard evaluation and
earthquake resistant design measures
Hydroelectric Pumped Storage and CAES Projects
Project Client
Seneca (Kinzua) Pumped-Storage Project,
Pennsylvania
First Energy; Cleveland Electric Illuminating Co. &
Pennsylvania Electric Co
Mokelumne Pumped-Storage Project, California PG&E
Yards Creek Hydroelectric Pumped-Storage
Project, Pennsylvania
First Energy
Shandong Taian Pumped-Storage Project, China Shandong Taian Pumped-Storage Power Station
Co. Ltd, China
Missouri Pumped-Storage Project, Missouri Ameren
Smir and Abdelmoumen Pumped-Storage
Projects, Morocco
Office National de L'Electricite
Norton Energy Storage Project, Ohio (CAES) FirstEnergy Corporation
Church Mountain Pumped-Storage Project,
Missouri
Ameren Development Company
Pea Ridge Pumped-Storage Project, Missouri
(CAES and Hydro)
Ameren Development Company
Blue Diamond Pumped-Storage Project, Nevada Diamond Generating Corporation; Synergics
3. 3
Tongbai Hydroelectric Pumped-Storage Project,
China
East China Power Corporation
Afourer Pumped-Storage Project, Morocco Confidential
Parsa Pumped-Storage Project, Israel Israel Electric Corporation
Yangyang Pumped-Storage Project, Korea Byucksan Company, Ltd., and Saman
Engineering Company, Seoul
Morgantown Underground Space Development
(CAES), Pennsylvania
Confidential
Compressed Air Energy Plant Siting Study
(CAES), Colorado, Arizona, Utah, New Mexico
Western Area Power Administration, Electric
Power Research Institute
Tianhuangping Pumped-Storage Project, China East China Power Corporation, Hangzhou
Cuffs Run Pumped-Storage Project, Pennsylvania Mid-Atlantic Engineering Corp.
Compressed Air Energy Storage siting study
(Canada)
Ontario Hydro and Harza in-house research
Northwest Illinois Underground Pumped-Storage
Project
Confidential
Maysville Pumped-Storage Project, Kentucky East Kentucky Power Cooperative and American
Electric Power
Bellefonte Pumped-Storage Project, Pennsylvania Confidential
Lake Elsinore Pumped-Storage Project, California Cities of Riverside and Anaheim
Rocky Mountain Pumped-Storage Project,
Georgia
Oglethorpe Power Company
Iowa Hill Pumped-Storage Project, California Sacramento Municipal Utilities District
Mississippi Valley Pumped-Storage Project, MN Southern Minnesota Municipalities Power
Administration/Authority
Guangzhou Pumped-Storage Project, China Asian Development Bank, Guangzhou Provincial
Design Institute
Pickens County Pumped-Storage Project, Georgia Oglethorpe Power Corporation
Bath County Pumped-Storage Project, Virginia Virginia Electric Power Company
Crow Gap and Back Valley Pumped-Storage
Projects, Georgia
Municipal Electric Authority of Georgia, MEAG
Brumley Gap & Powell Mountain Pumped-Storage
Projects, Virginia & Kentucky
American Electric Power, Appalachian Power
Company
Eagle Mountain Pumped-Storage Project,
California
Eagle Crest Energy
• 23 of the above projects involve large dams
• 28 involve significant tunneling/shafts
• 20 involve power station caverns
• 8 required special seismic hazard assessment and earthquake resistant design measures
Navigation, Water Supply, Flood Control, Wastewater Projects
Project Client/Owner
Panama Canal 3rd Set of Locks Project, Panama Grupo Unidos Por el Canal/GUPC; ACP
San Vicente Dam Raise, California San Diego County Water Authority
NEORSD Tunnel Dewatering Pump Station,
Cleveland, Ohio
NE Ohio Regional Sewer District
McCook Tunnel Connecting Tunnel, Chicago US Army Corps of Engineers
Spavinaw Dam Modifications, Oklahoma Craig & Keithline, Inc.; City of Tulsa
Cocle del Norte Dam and Conveyance, Panama Autoridad del Canal de Panama
Caño Sucio Dam & Conveyance Project, Panama Autoridad del Canal de Panama
Rio Indio Water Supply Project, Panama Panama Canal Authority
Gross Dam, Colorado Denver Water Department
Dillon Dam, Colorado Denver Water Department
4. 4
Yöngwol Dam and Multipurpose Project, Korea Korea Water Resources Corporation
(KOWARCO); Hyundai Eng. & Construction Co.
Al Wehdah Multipurpose Dam Project, Jordan Jordan Valley Authority
79th Street Water Tunnel Extension, Chicago City of Chicago, Department of Public Works
Torrence Avenue Tunnel and O'Brien Pump
Station, Chicago
Metropolitan Water Reclamation District of
Greater Chicago
North Branch, Chicago Metropolitan Water Reclamation District of
Greater Chicago
Oahe Reservoir, Forest City Landslide at Bob's
Resort, South Dakota
U.S. Army Corps of Engineers, Omaha District
Las Mayas Project, Venezuela Ministerio del Ambiente y de los Recursos
Naturales Renovables (MARNR)
Muddy Creek Dam (Ritschard Dam/Wolford
Mountain Reservoir Project), Colorado
Colorado River Water Conservancy District
Gross Dam, Colorado Denver Water Department
Side Wadis Project, Jordan Jordan Valley Authority; USAID
King Talal Dam, Jordan Jordan Valley Authority
Two Forks Dam, Colorado Denver Water Department
Ferndale Project, Colorado Denver Water Department
Estabrook, Colorado Denver Water Department
Earthquake Hazard Assessment, Oman United Nations Development Program (UNDP),
Sultanate of Oman
Zarqa River Project, Jordan Jordan Valley Authority, JVA
Maqarin Multipurpose Dam Project, Jordan Jordan Valley Authority (JVA)
Mainstream underground Pump Stations
(Caverns), Chicago
Metropolitan Water Reclamation District of
Greater Chicago
• 24 of the above projects involve large dams and water impoundments
• 11 involve significant tunneling / shafts
• 4 involve pump station caverns
• 9 required special seismic hazard assessment and earthquake resistant design measures
Mining Projects
Project Client/Owner
Cerro Verde Linga TSF Facility, Peru Freeport MacMoRan
Los Pelambres, Chile Minera Los Pelambres
Cerro Corona, Peru Goldfields
Rosia Montana, Romania S.C. Rosia Montana Gold Corporation SA
Grasberg, Indonesia Freeport MacMoRan
El Abra, Chile Sociedad Contractual Minera El Abra (SCMEA)
Candelaria, Chile Freeport MacMoRan
El Galeno, Peru Lumina Copper, SAC
• All of the above projects involve large tailings dams and tailings storage impoundments
• All required special seismic hazard assessment and earthquake resistant design