Continuous Analyses of Energy and Environmental Subjects Now Available

McIlvaine is launching a series of websites covering Industry Options.  Each contains one or more continuing analyses of the decisions which the designer and operator have to make.

The websites already launched are:

·         Gas Turbine Air Treatment – Continuous Analyses

·         Gas Turbine Emission Control - Continuous Analyses

·         Dry Scrubbing - Continuous Analyses

·         Mercury Removal - Continuous Analyses

Websites under construction are:

·         Drinking Water Filtration - Continuous Analyses

·         Secondary Wastewater Treatment - Continuous Analyses

·         Steam Valves - Continuous Analyses

·         Wet Scrubber Design Options For Calcium Reagent

Access to each website is free to anyone.  The intelligence system with all the background information is also free with no password required.  Additional papers, presentations, etc. are invited. This includes text in other languages as long as an English summary is included. A special emphasis will be given to capturing the intelligence being generated in China.

The background information will be evaluated and Continuous Analyses prepared. These continuous analyses will provide independent evaluation of the life cycle costs and performance of all the various system and component options. Access to these analyses will be free to owner/operators but will require a subscription for others.

Suppliers can choose to have McIlvaine conduct an Application Audit. This audit is a white paper with third party experts making independent evaluations. The niche experts making these evaluations will be encouraged to focus on a very narrow area to ensure that they have unsurpassed knowledge of the subject. The Application Audits will be posted and free to anyone.

There will be periodic webinars on each subject. For example, there will be several continuing analyses under Gas Turbine Emission Control. One will deal with CEMS. A webinar will be held on April 17th to debate six different approaches to measuring NH3. This follows previous webinars on the subject and a feature article in Air Pollution Control magazine. Two webinars relative to continuing analyses on mercury reduction are also scheduled.

Webinars are free to plant owner/operators, but there is a charge for others. Here is the near-term schedule:  Hot Topic Hour Schedule

Dry Scrubbing Is The Topic Next Week.

On March 27th we will be comparing SDA, CFB and other CDS designs including NID and GSA. We will be reviewing every aspect in which the designs differ and discuss the merits of these differences.  Webinar registrants will have access to the information posted in the intelligence system.

Dry Scrubbing - Continuous Analyses

The format will be a series of questions which are first addressed by the panelists and then the other participants.  We have panelists who are third party experts on dry scrubbers. They are:

 

One task will be to try to come to agreement relative to decisive classification and the specific nomenclature.  We have selected the first split at Chamber vs. In-duct.   Maybe better words are vessel and DSI but, in any case, we will be trying to resolve the nomenclature issues in the webinar next week. 

We will be focused on the comparison of the major alternatives. If the chamber options are circulating dry scrubbers and SDA, how do they compare?  Paul Farber has contributed several good papers and will be a panelist next week.  Here is how we summarized one of his analyses of SDA and CDS:

·         SO2 Capture Capability - Advantage To CDS

·         Fuel Flexibility - Advantage To CDS

·         Load Flexibility - Advantage To SDA

·         Utilities Consumption - Slight Advantage To SDA

·         Waste Production - Advantage To SDA

There is still the need to breakdown CDS. What is the next level among CFB, GSA, NID, etc?  How many segments should be at one level and should there be sub-segments?

We are looking at dual fluid nozzles vs. rotary atomizers, the size of NIDS nozzles, air slides vs. screw conveyors and many other components. We are focusing right now on the chamber segment but we already have a great deal of DSI information on the site.  This site is free to one and all although the webinars and continuing analyses are more restricted.  Let us know what you think of this very different new approach.

To register for the webinar, click on: http://home.mcilvainecompany.com/index.php/component/content/article?id=675

Provide Your Input to Scrubber Design Options for Calcium Reagents

We are preparing a website on calcium based wet scrubbers similar to the one on dry scrubbing.  We will be looking at the four main components which are gas (flow rate and distribution), liquid (droplet size and distribution), slurry exposure (time and sequence) and droplet elimination.

There are three basic designs of limestone scrubbers.  Here is a starting point relative to assessing the advantages and disadvantages of each:

 

Parameter

Tray

Spray

Sump

Pump Power

Medium

High

Low

Fan Power

Higher

Lower

Higher

Plugging Potential

Higher

Lower

Higher

Height

Lower

Higher

Lower

Experience Ranking

2nd

1st

3rd

Suppliers

(Examples)

Babcock & Wilcox, Wheelabrator (FW)

Alstom

Mitsubishi

Chiyoda

Alstom

Particulate Removal

Higher

Lower

Higher

Biggest Concern

Tray Plugging

Nozzle Plugging

Level Control

Efficiency Increase Routes

2nd Tray

More Spray Banks

Higher Level Differential

Within each category there are sub-categories.  The tray design includes perforated plates and several variations.  One is called the rod deck and was installed at Cilco Duck Creek Three and Northern States Power Sherburne. Instead of round holes, there is the open area between parallel pipes about 2-e inches in diameter.

There are significant variations among spray tower designs. For example, MHI has a double contact with down flow followed by upflow.  This design utilizes rapid air flow.  The air velocity is one of the big questions.  It can be 10-20 fps.  At lower flows there is more retention time. At higher flows there is more turbulence.  It can be argued that the turbulence is more important in the reaction than is the retention time.  There is a tradeoff between vessel size and pressure loss.

The role of mist eliminators cannot be underestimated. The question is when you have higher turbulence do you need better mist elimination?   Efficiency, water (for cleaning) consumption, pressure loss and configuration all need to be reviewed.

The role of nozzles varies greatly between the spray tower and other types. It is critical in the spray tower design, but may be relatively unimportant in the other designs. 

We are now preparing the website for “Scrubber Design Options for Calcium Reagents” and welcome input which will be relevant.  Much of it will come from our existing FGD & DeNOx Knowledge System which we have been compiling since 1974.  But we need to make use of the latest Insights and look forward to your contribution.

Sales of Water and Wastewater Treatment Chemicals for Gas Turbine/Combined Cycle Power Plants in U.S. Will Exceed $160 Million in 2015

Worldwide sales of gas turbine power plants are increasing steadily. The growth rate is highest in the U.S. Capacity is expected to grow from the present 300,000 MW to over 500,000 MW in 2040. The suppliers of treatment chemicals will achieve sales of $160 million in this sector in 2015.  This is the conclusion reached by the McIlvaine Company in Water and Wastewater Treatment Chemicals: World Market.  (www.mcilvainecompany.com)

Water Treatment Chemical Revenues ($ Millions)

World Region

2015

All Power

% Gas Turbine

Gas Turbine

 Total

 5,050

10

527

 Africa

 140

20

28

 CIS

 210

10

21

 East Asia

 2,540

5

127

 Eastern Europe

 180

10

18

 Middle East

 150

40

60

 NAFTA

 800

20

160

 South & Central America

 80

20

16

 West Asia

 450

5

22

 Western Europe

 500

15

75

East Asia will enjoy much higher sales of treatment chemicals in the total power market. However, sales for the gas turbine segment will be smaller.

There are a number of processes in a gas turbine combined cycle power plant which require treatment chemicals:

The requirements differ from plant to plant. Some plants in the U.S. are opting for dry cooling. This eliminates one use of chemicals. Other plants are opting to use treated municipal wastewater for cooling. This increases chemical use. Those plants opting for zero liquid discharge use more chemicals.

The big difference is whether the plant is a simple or combined cycle operation.  The simple cycle plants do not generate steam, but still require water treatment for fogging nozzles and compressor washing.

For more information on Water and Wastewater Treatment Chemicals: World Market, click on: http://home.mcilvainecompany.com/index.php/markets/27-water/449-n026-water-and-wastewater-treatment-chemicals

OIL & GAS SALES LEADS HEADLINES

March 6, 2014

(Listed by most current date)

Oil and Gas Project Tracking is available at a discount to Water and Wastewater Treatment Chemicals:  World Market subscribers.

Treatment chemicals are an important addition to most oil and gas processes. Access to details on the worldwide oil and gas projects is provided at a substantial discount to Water and Wastewater Treatment Chemicals:  World Market subscribers.

John Crane Wins Project to Supply Products and Service for Iraq's Zubair Oil Field  (Agreement Dated: 3/6/2014)

Plains All American Announces Eagle Ford Fractionator Project and Infrastructure Expansions  (Project Dated: 3/6/2014)

Saudi Aramco Awards Fadhili Gas Plant FEED Contract to Foster Wheeler  (Contact Dated: 3/6/2014)

KBR Enters Into Enterprise Framework Agreement with Shell for Module Fabrication  (Agreement Dated: 3/6/2014)

Statoil Discovers Oil and Gas in Barents Sea Formations  (Article Dated: 3/6/2014)

Kinder Morgan and Imperial Oil to Build Edmonton Crude Oil Rail Terminal  (Joint Venture Dated: 3/6/2014)

Frac Sand Producer, Source Energy Services Locates on Canadian National's Wisconsin Network  (Article Dated: 3/5/2014)

GDF Suez Wins Five Southern North Sea Licenses  (Article Dated: 3/5/2014)

Construction of Alanco Energy Colorado Oil & Gas Disposal Landfill Approved  (Project Dated: 3/5/2014)

Nido Petroleum Signs $7 Mln Drilling Rig Contract with UMW Standard Drilling  (Contacts Dated: 3/5/2014)

NGL Energy Partners LP Acquires Keyera Energy Inc.’s NGL Terminals  (Acquisition Dated: 3/5/2014)

Alfa Laval Wins SEK 50 Mln Offshore Order for Part of Auxiliary System on North Sea Platform  (Order Dated: 3/5/2014)

Kuwait Oil Awards Technip $400 Mln Contract for Project Management Consultancy Services  (Contract Dated: 3/5/2014)

Abu Dhabi’s TAQA Receives UK Government Approval for Morrone Field  (Project Dated: 3/4/2014)

Rising Saudi Energy Use a Bigger Threat to Saudi Oil and Gas Industry than U.S. Shale Oil  (Article Dated: 3/4/2014)

Colombia's Ecopetrol Raises Its 2014 Investment Budget 11% to $10.6 Bln  (Article Dated: 3/4/2014)

Parkmead Awarded Five New Blocks Offshore UK’s Southern North Sea  (Award Dated: 3/4/2014)

Rolls-Royce Wins Contract from Hyundai to Help Boost Domestic Oil Production in UAE  (Project Dated: 3/4/2014)

Mexico's Landmark Energy Bill Nears Final Approval  (Article Dated: 3/4/2014)

Bumi Armada of Malaysia Wins Contracts to Supply Three Ice-Class Vessels to Lukoil  (Contract Dated: 3/3/2014)

Petrofac & Taleveras Sign MOU with Nigeria’s NPDC  (Contract Dated: 3/3/2014)

Drydocks Signs LOI with Innovation Management to Build Jack-Up Rigs  (Contract Dated: 3/3/2014)

Mott MacDonald Awarded Project Management Consultant Contract for Hail Field in UAE  (Contract Dated: 2/28/2014)

RasGas Awards EPC Contract for Onshore Flow Assurance Project to Chiyoda Almana  (Project Dated: 2/28/2014)

AMEC Awarded $124 Mln PMC Contract for Umm Lulu Phase 2 Offshore UAE  (Project Dated: 2/28/2014)

Enable Midstream Holds Open Season for New Crude Oil Gathering System in ND  (Project Dated: 2/27/2014)

GE Selects Oklahoma City Site for New Global Hub of Oil & Gas Technology Innovation  (Project Dated: 2/27/2014)

UK’s Amec to Buy Foster Wheeler in $3.2 Bln Merger  (Merger Dated: 2/27/2014)

Egypt’s Petroleum Minister Promoting Use of Coal over Natural Gas  (Article Dated: 2/27/2014)

 

Kuwait Oil Awards WorleyParsons a $400 Mln Program Management Contract  (Contract Dated: 2/27/2014)

KNPC Awards AMEC with $255 Mln Project Engineering and Management Services Contract  (Contract Dated: 2/27/2014)

Honeywell UOP Technology Selected to Help Meet Demand for Key Petrochemicals in China, Part 2  (Project Dated: 2/21/2014)

Update on Qatar Petrochemicals Sector  (Update Dated: 2/10/2014)

Sasol Expands Sasolburg Ethylene, Polyethylene Capacity by Debottlenecking Cracker  (Project Dated: 2/6/2014)

Honeywell UOP Technology Selected to Help Meet Demand for Key Petrochemicals in China Part 1  (Project Dated: 2/6/2014)

Update on Saudi Arabian Petrochemicals Sector  (Update Dated: 2/6/2014)

NOVA Chemicals Announces First Petrochemicals from Marcellus Shale Ethane at its Ontario Cracker  (Article Dated: 2/6/2014)

Taiwan Approves First Petrochemical Investment Plan in China for $263.62 Mln  (Investment Dated: 2/6/2014)

Kuwait Shows Interest in Buying Stake in ONGC Petrochemical Plants  (Article Dated: 2/6/2014)

These sales leads are part of Oil, Gas, Shale and Refining Markets and Projects, and are issued bi-weekly. As a subscriber to Water and Wastewater Treatment Chemicals:  World Market you receive a 30 percent discount for this service.

For more information on Oil, Gas, Shale and Refining Markets and Projects, click on:  https://www.mcilvainecompany.com/brochures/order/OilGasShaleandRefiningMarketsandProjects.htm

For more information on Water and Wastewater Treatment Chemicals:  World Market http://home.mcilvainecompany.com/index.php/markets/27-water/449-n026-water-and-wastewater-treatment-chemicals

World Power Generation Projects

This includes only projects where there was an update during the month. There are thousands of projects in the database.

 

New power generation projects are tracked in two publications. Fossil and Nuclear Power Generation includes both market forecasts and project data. World Power Generation Projects has just the project data.

General Project Information

Startup Date - 2014

 Location

 Location Comment

 Project Title

 Argentina

 Santa Cruz province

 Rio Turbio CFB power plant-Yacimientos Carboniferos Rio Turbio

 Australia

 Queensland, Mount Isa

 Diamantina 1 combined cycle-APA Group/AGL Energy

 Australia

 Western Australia

 Coolimba gas-fired project-Aviva and AES

 Australia

 Western Australia

 Three Springs open cycle power project-ERM Power

 Australia

 Western Australia, Pilbara region, at Newman plant

 Yarima combined cycle plant-BHP Billiton

 Azerbaijan

 Baku

 Shimal 2 combined cycle-Azerenergy

 Azerbaijan

 near Baku

 Severnaya 2 combined cycle-Azerenerji OJSC

 Bangladesh

  

 Meghnaghat 2-Bangladesh Power Dev. Board

 Bangladesh

 Ganzipur

 Kodda combined cycle-Rural Power Co.

 Bangladesh

 Khulna, neat Mongla port

 Chalna-Bangladesh Power Development Board/NTPC

 Bangladesh

 Narayanganj

 Siddhirganj combined cycle-Electricity Generation Co. of Bangladesh

 Brazil

  

 Baixada Fluminense power plant-Petrobras

 Brazil

  

 Maranhao state combined cycle power plant-MPX Power

 Brazil

 Manaus

 Maua 3 combined cycle power plant-UTE

 Brazil

 Rio Grande do Sul

 Seival project-MPX Energia/E.On project

 CA

  

 Haynes 5,6 repower-Los Angeles DWP

 CA

 Los Angeles county

 Watson Cogen Reliability Project

 Canada

 Saskatchewan

 Estevan (Boundary Dam 3) rebuild and repower-SaskPower

 China

 Fujian

 Ningde 1,2 nuclear power plant-Datang Inter. Power/Guangdong Nuclear Power

 China

 Fujian, Sanshan town

 Fuqing 1,2 nuclear power plant-China National Nuclear Corp.

 China

 Guangdong province, Dongping township

 Yangjiang 1,2 nuclear power plant-China Guangdong Nuclear Power Co.

 China

 Guangdong, Chixi Town

 Taishan 1,2 nuclear power plant-EDF/China Guangdong Nuclear Power Corp.

 China

 Zhejiang

 Fangjiashan 1,2

 China

 Zhejiang province, Jiantiao

 Sanmen 1, 2 nuclear power plant-State Nuclear Power Technology Co.

 Czech Republic

  

 Kladno cogeneration unit-Alpiq Generation

 Egypt

  

 6th October addition-Cairo Electricity Production Co.

 Egypt

  

 Giza North combined cycle-Cairo Electricity Production Co.

 Egypt

 in greater Cairo area near industrial areas of Helwan and Maadi, Banha

 El Tebbin power plant-Middle Delta Electricity Production Co.

 FL

 Palm Beach county

 Riviera Beach combined cycle-Florida Power & Light

 GA

  

 Warren County biomass-fired power plant-Oglethorpe Power

 Germany

  

 Wilhelmshaven 2-GDF

 Germany

 at Currenta GmbH chemical production site

 Leverkusen combined cycle power plant-Repower

 Germany

 Bremen

 Mittelsburenpower plant-Gemeinschaftskraftwerk Bremen

 Germany

 Hamburg

 Moorburg 1,2-Vattenfall Europe

 Germany

 Hamm-Uentrop

 Westfalen D,E supercritical-RWE

 IL

 Lee County

 Nelson combined cycle plant-Invenergy

 India

 Andhra Pradesh

 Visakhapatnam (Vizag) 1,2-Hinduja National Power Corp.

 India

 Assam

 Bongaigaon power project-NTPC

 India

 Bihar

 Barauni TPS expansion (1,2)-BSEB

 India

 Bihar

 Barh I (1-3) supercritical-National Thermal Power Corp.

 India

 Bihar, near Patna

 Barh II (4,5)-National Thermal Power Corp. (NTPC)

 India

 Bihar, Sirdala, Nawada

 Global Powmin power plant

 India

 Chhattisgarh

 Salora 1-3-Vandana Vidyut

 India

 Chhattisgarh

 Champa supercritical power project-Moser Baer

 India

 Chhattisgarh

 Marwa power project (Janjajir Champa)-Chhattisgarh State Electricity Board

 India

 Chhattisgarh, Janjgir district, Champa

 Baradarha power project- DB Power Ltd.

 India

 Gujarat, Junagad district

 Sarkhadi Phase I supercritical power plant-Gujarat State Electricity Corp.

 India

 Gujarat, Kutch district, Bhadreshwar

 Mundra supercritical power plant-Adani Power

 India

 Jharkhand

 Bokaro 4 supercritical power plant-Damodar Valley Corp.

 India

 Jharkhand, Latehar district

 Chandwa (Matrishri Usha Jayaswal)-Tata Power/Abhijeet (JAS Infrastructure)

 India

 Karnataka

 Nandikur power plant expansion-Udupi Power Corp.

 India

 Karnataka

 Bellary 3 (Yaramaras) supercritical expansion-Karnataka Power Corp.

 India

 Karnataka, Raichur district

 Yeramarus power project-Karnataka Power Corp.

 India

 Madhya Pradesh

 Betul (Satpura 10, 11) district power plant-Madhya Pradesh Power Generating

 India

 Maharashtra

 Chandrapur power plant-CESC (RPG)

 India

 Maharashtra, Chandrapur

 Dhariwal 1,2

 India

 Orissa, near Angul

 Derang (Angul I) power plant-Jindal India Thermal Power

 India

 Orissa, Odisha

 Dhenkanal (Kamalanga)-GMR Energy

 India

 Punjab, Nalash Nabha

 Rajpura supercritical power plant-Punjab State Electricity Board

 India

 Punjab, Tarn Taran

 Goindwal supercritical expansion-GVK Group

 India

 Rajasthan

 Ramgarh III combined cycle expansion-RRVUNL

 India

 Rajasthan, Banswara

 Chhabra 1-4-Rajasthan Rajya Vidyut Prasaran Nigam

 India

 Rajasthan, Jhalawar district

 Kalisindh power plant-Rajasthan Rajya Vidyut Utpadan Nigam

 India

 Tamil Nadu

 Tuticorin power plant (Mutiara)-Coal & Oil Group (Dubai)

 India

 Tamil Nadu

 Kalpakkam nuclear power plant-Bhartiya Nabhikiya Vidyut Nigam

 India

 Tamil Nadu, Chennai

 Vallur 2,3-Tamil Nadu Electricity Board/National Thermal Power Corp.

 India

 Tamil Nadu, Cuddalore

 Tuticorin expansion-Neyveli Lignite Corp./Tamil Nadu Elect. Board

 India

 Uttar Pradesh, near Kanpur

 Anpara D (6,7)-Uttar Pradesh Rajya Vidyut Utpadan Nigam Ltd.

 India

 Uttar Pradesh, Rihandnagar, Sonehbadra district

 Rihand III 5,6-NTPC

 India

 West Bengal

 Durgapur 8 power plant-Durgapur Projects

 Indonesia

  

 Bali Phase I power plant-China Huadian Group

 Indonesia

  

 Kalimantan power plant with aluminum smelter-NALCO

 Indonesia

 Central Kalimantan

 Bengkanai power plant-PLN

 Indonesia

 South Sulawesi

 Jeneponto expansion-Bosowa Group

 Indonesia

 South Sumatra

 Muara Enim (South Sumatra 6) power plant-PT Bumi Resources Indonesia

 Indonesia

 West Kalimantan

 Bengkayang power plant-PLN

 Iraq

  

 Amara power plant

 Iraq

  

 Dibis expansion-Kirkuk power plant

 Iraq

  

 Erbil conversion to combined cycle

 Iraq

  

 Zubaidiya power plant-Shanghai Electric

 Iraq

 Bassorah

 Rumaila-Basra power plant-Iraqi Ministry of Electricity

 Iraq

 north of Baghdad

 Baiji power plant--Iraqi Ministry of Electricity

 Iraq

 Northern Kurdistan area

 Khormala Phase I combined cycle power plant

 Israel

  

 Tzafit combined cycle-Dalia Power Energies

 Japan

  

 Chiba expansion-Tokyo Electric Power

 Japan

  

 Joetsu combined cycle power plant-Chubu Electric

 Japan

  

 Kakogawa works power plant-Kobe Steel

 Jordan

  

 Al Manakher power plant-Amman Asia Electric Power

 Jordan

 Amman

 IPP4 Al-Manakher power plant-AES Corp.

 KS

 Grant County

 Rubart Station-Mid-Kansas Electric Co.

 Kuwait

  

 Az Zour steam tail addition-Al Ghanim International

 Lebanon

  

 Zouk power plant

 Lebanon

  

 Jiyeh power plant

 Libya

  

 Tripoli West expansion-Gecol (General Electricity Co. of Libya)

 MA

  

 Westfield (Pioneer Valley Energy) combined cycle power plant

 Malaysia

 Papar district, Sabah

 Kimanis combined cycle power plant-Petronas Gas and Yayasan Sabah

 Mexico

 on grounds of Presidente Juarez plant, Playas de Rosarito, Baja California

 Baja California II-Comision Federal de Electricidad

 Mexico

 Pedro Escobedo, Queretaro

 El Sauz combined cycle plant

 Mexico

 Sonora state

 Caridad II-Minera Mexico

 Mexico

 Yautepec, Morales state

 Centro combined cycle-CFE

 Morocco

  

 Jorf Lasfar expansion (5,6)

 Mozambique

  

 Ressano Garcia power plant-Gigawatt-Mozambique

 MS

 Kemper County

 David M Ratcliffe (Liberty) IGCC-Mississippi Power

 Myanmar

 Thakayta township

 Yangon combined cycle-Busan Korea Biotech., Hyundai, Hana Daetoo Securities

 ND

  

 Lonesome Creek 1,2,3 peaking power plant-Basin Electric

 ND

 next to Stateline I, Williams county

 Pioneer 1,2,3 peaking power plant-Basin Electric

 Nigeria

  

 Calabar Cross River State power plant-Essar African Holdings

 Nigeria

 Abia state

 Alaoji combined cycle project

 NJ

  

 Gloucester County combined cycle-West Deptford Energy LLC

 NY

 Cricket Valley

 Dover combined cycle (Cricket Valley)-Advanced Power Services

 Oman

  

 Sur combined cycle plant-Oman Power and Water Procurement

 Pakistan

 Bihar

 Muzaffarpur Stage II-NTPC and BSEB

 Peru

 Marcona district, Ica region

 El Faro-Shougang Generacion Electrica (Shougesa)

 Philippines

  

 Negros Occidental power plant-Global Business Power Corp.

 Philippines

 Cebu

 Global Business Power plant expansion in Toledo City

 Russia

  

 Yuzhnouralskaya GRES-2 combined cycle power plant-OJSC Third Generation Co.

 Russia

  

 Mosenergo TET-12 combined cycle

 Russia

 Leningrad region

 Tikhvin power plant-Transmashenergo

 Russia

 Moscow

 Ogorodny Proezd-Novomoskovskaya

 Russia

 Siberia

 Nyagan combined cycle power plant-GRES

 Russia

 St. Petersburg

 Yugo-Zapadnaya cogeneration plant

 Saudi Arabia

  

 Qurayyah combined cycle IPP1

 Saudi Arabia

 Al Jubail

 Wasit cogeneration plant-Saudi Aramco

 Saudi Arabia

 Eastern region of country

 Qurayyah combined cycle conversion-Saudi Electric Co.

 Serbia

  

 Novi Sad combined cycle

 Singapore

  

 Tuas 5 combined cycle plant-Tuas Power Ltd. (Huaneng Power International)

 Singapore

 Jurong Island

 Banyan district combined cycle power plant-Sembcorp

 Slovakia

  

 Mochovce 3,4 nuclear power plant-Slovenske Elektrarne

 South Korea

  

 Pocheon combined cycle

 South Korea

  

 Pohang Works expansion-POSCO

 South Korea

  

 Shin Kori 3 and 4 nuclear power plant

 South Korea

  

 Yeongheung 5,6

 South Korea

 Gyeonggi-do

 Dongducheon combined cycle-Dongducheon Dream Power

 Sri Lanka

  

 Puttalam power project-Ceylon Electricity Board

 Sweden

  

 Torsvik cogen power plant-Jonkoping Energi

 Syria

  

 Swaida combined cycle plant-Iran Power Plant Projects Management Co.

 Thailand

  

 Nong Saeng District independent power project--J Power

 Thailand

  

 Power Generation Supply power plant

 Thailand

 Ayutthaya

 Wang Noi 4 combined cycle expansion-Egat

 Thailand

 Songkhla province

 Chana combined cycle expansion (2)-EGAT

 Turkey

  

 Eurostar power plant-MetCap

 Turkey

 Hatay province

 Erzin district combined cycle power plant-Akenerji

 Turkmenistan

  

 Lebap fast track gas turbine power plant-Calik Enerji

 Turkmenistan

 Akhal region

 Ak Bugdai gas turbine power plant-Calik Enerji Sanayi ve Ticaret

 Turkmenistan

 Lehab

 Turkmenabat fast track gas turbine power plant

 TX

  

 Channel expansion-Calpine

 TX

 Grayson county

 Sherman combined cycle power plant-Panda

 TX

 Harris county

 Deer Park expansion-Calpine

 TX

 Hidalgo county

 Red Gate power plant-South Texas Electric Coop.

 TX

 Llano County, near Marble Falls

 Ferguson combined cycle power plant-LCRA

 TX

 near Madisonville

 Madison Bell Energy Center-Navasota Energy Partners

 TX

 Tyer county

 Woodville-East TX Electric Coop

 UK

 Essex, London Gateway Logistics Park

 Coryton power plant-InterGen

 UK

 Hillhouse International Business Park

 Thornton Cleveleys combined cycle power plant-Wyre Power

 UK

 North Tyneside

 Tyne Renewable Energy Center-MGT Power

 UK

 Selby

 Drax biomass power project (Ouse Renewable Energy Plant)

 UK

 Waterford Harbor, Co. Wexford

 Great Island combined cycle-SSE

 United Arab Emirates

 Abu Dhabi

 Shuweihat 3 power project-Abu Dhabi Water & Electricity Authority

 United Arab Emirates

 Abu Dhabi

 Al Shuweihat power and desalination expansion-Abu Dhabi Water & Electricity

 UT

  

 Lake Side 2 combined cycle expansion-PacifiCorp

 Vietnam

 Binh Thuan province

 Vinh Tan 3.2-Vietnam Electricity (EVN)/One Energy

 Vietnam

 Quang Ninh

 Mao Khe-Vinacomin

 Vietnam

 Thanh Hoa province

 Nghi Son Economic Zone (Cong Thanh) 1 power plant-EVN

 WA

 Port of Kalama, Cowlitz county

 Kalama Energy Center--Energy Northwest plant

 WY

  

 Cheyenne Prairie combined cycle power plant-Cheyenne Light, Fuel & Power

 Zambia

  

 Nava Bharat Ventures power plant

For more information on World Power Generation Projects, click on: http://home.mcilvainecompany.com/index.php/databases/28-energy/486-40ai

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Bob McIlvaine
President
847-784-0012 ext 112
rmcilvaine@mcilvainecompany.com
www.mcilvainecompany.com

 191 Waukegan Road Suite 208 | Northfield | IL 60093
Ph: 847-784-0012 | Fax: 847-784-0061