Top Three Air and Water Monitoring Companies Have 13% Market Share, But Only 6% in Asia
Asia is the largest market for air and water monitoring equipment. The three largest players have only a 6 percent share of this market even though their world share is over 13 percent. This is the conclusion reached in the McIlvaine Air & Water Pollution Monitoring World. (www.mcilvainecompany.com) In 2012, the world air and water monitoring revenues were just under $21 billion. Forty-four percent of the total was in Asia.
$ Million
Continent 2012 %
Africa 747 4
America 5,019 24
Americas 906 5
Asia 9,261 44
Europe 4,967 23
Total 20,900 100
In 2012, the top three air and water monitoring suppliers generated revenue of $2.8 billion or 13 percent of the world total. However, their Asian revenues were only $578 million or 6 percent of the Asian market.
Company 2012 World
Revenues
$ Millions Ranking Asian % 2012 Asian
Revenues
$millions
All 20,894 44 9,261
Emerson 1,200 1 21 252
Endress + Hauser 900 2 23 207
Thermo Fisher 700 3 17 119
Top 3 total 2,800 6 578
All three companies, along with most of the international suppliers, are targeting the Asian market for major growth. Thermo Fisher has established its main air pollution research center in China and has made substantial investment in the region. Because Asian countries tend to adopt international standards, there is an advantage for those suppliers who have been accredited in the U.S. or Europe. Emerson and Thermo Fisher are U.S. based and Endress + Hauser is a European company. These suppliers must compete against international suppliers home based in the developed Asian countries. Yokogawa and Horiba are major players in the international market.
Company World Monitoring
Revenues $ Millions World
Ranking
Horiba 500 4
Yokogawa 450 5
The international companies must also compete with rapidly growing domestic suppliers in China who are likely to expand beyond their own borders.
For more information on Air & Water Pollution Monitoring World Markets, click on: http://home.mcilvainecompany.com/index.php?option=com_content&view=article&id=106extsup1.asp
Three Largest Valve Companies have only 5.2 Percent of the Asian Valve Market
The three largest valve companies (Pentair, Emerson and Flowserve) have captured 10 percent of the world industrial valve market but have only a 5.2 percent share of the Asian market. This is the conclusion reached in Industrial Valves: World Markets published by the McIlvaine Company www.mcilvainecompany.com. The total world market last year was over $53 billion. Asia accounted for 42 percent of the market.
Valve Revenues ($ Millions) *
Continent 2012 %
Africa 2,754 5
Americas 15,049 28
Asia 22,598 42
Europe 13,035 25
Total 53,436 100
* The top three valve companies are U.S. based. Their penetration of the Asian market has been only half what it has been in other markets. Asian sales range from 20 to 22 percent of total sales for the individual companies.
Valve Market Shares
Subject Valve Sales 2012 in Asia ($ Millions) % of World Valve Sales for Subject % of Asian Total
Asia 22,600 42% 100.0
Flowserve 280 20% 1.2
Pentair 475 22% 2.1
Emerson 437 25% 1.9
Total for Three Largest Valve Companies 1,192 22% 5.2
The international valve companies see this lack of Asian penetration as a growth opportunity. They are building manufacturing facilities in Asia and striving to reach the same penetration level as in other regions. There is another equally compelling argument that this lack of strength in Asia opens the door to more international competition. Other suppliers both Asian and non-Asian have the opportunity to build a base in Asia which will allow them to compete more effectively in the rest of the world. Chinese manufacturers are moving up the quality chain and even supplying nuclear grade valves.
More than 80 percent of the new coal-fired power plants will be built in Asia over the next few years. The majority will be of the supercritical design which requires valves to function under higher temperatures and pressures. The successful valve suppliers will be able to use this expertise as supercritical boilers are built elsewhere in the world. China is a leader in coal to chemicals and coal to gasoline. Valve requirements for this application are challenging. This is another opportunity for competitors. The many new chemical plants under construction in Asia offer similar opportunities.
For more information on Industrial Valves: World Markets, click on:
http://home.mcilvainecompany.com/index.php?option=com_content&view=article&id=71#n028
McIlvaine will speak at Pharmaceutical Water Treatment June 12, 2013
Here is the program for the ultrapure water conference which will be held next month in Chicago. Bob McIlvaine will speak about the industry trends on the second day.
Pharmaceutical Water Treatment
June 11-12, 2013
Embassy Suites -- Lombard (Chicago)
ULTRAPURE WATER--Pharma 2013 is a two-day conference on Pharmaceutical Pure Water. This conference offers an Executive Forum consisting of state-of-the-art technical papers.
Click here to register online.
Download Registration Form (PDF file).
Preliminary Program:
Co-moderators: Anthony Bevilacqua, Ph.D., METTLER-TOLEDO Thornton;
and William V. Collentro, Water Consulting Specialists

Tuesday, June 11 Session 1:
■ Microbial Control in Purified Water Systems
8:45 AM-Session Introduction
9:00 AM-Biofilm Control in Manufacturing/Water Systems
Mark More, Ph.D., Baxter
9:45 AM-Engineering Controls for Microbial Control in Pharmaceutical Water Systems
Mukesh Yadav, Genentech
10:30 AM-Coffee Break
10:45 AM-Procedural Application of Root Cause Analysis for Microbial Excursions
Roderick Freeman, Beckman Coulter
11:30 AM-Ozone versus Heat Sanitization of Pure Water Distribution
Nik Krpan, Cheme' Engineering, Inc.
12:15 PM-Lunch Break
1:30 PM-Mitigating Biofilm with Ozone for Best Results
Erika Hanley-Onken, MKS Instruments
2:15 PM-Case Study: Lessons Learned from an In-Depth FDA Inspection
Roderick Freeman, Beckman Coulter
3:30 PM-Coffee Break
3:45 PM-Updates on Compendial Sterile and Bulk Water Standards
Antonio Hernandez-Cardoso, United States Pharmacopeial Convention Inc.
4:30 PM—Roundtable Discussion
5:45 PM--Reception

Wednesday, June 12: Session 2:
■ Control of Pharmaceutical Water Systems
8:45 AM-Trends and Developments in Pharmaceutical Water Markets
Robert McIlvaine, The McIlvaine Co.
9:30 AM-A Treatment System Based on Electrical Hardness Precipitation and UV Destruction
Shlomo Sackstein, Biopharmax Group
10:00 AM-Monitoring/Continued Verification of Pharmaceutical Water Systems
Walter Henkel, Concordia ValSource
10:30 AM-Coffee Break
10:45 AM-Enhanced TOC Reduction in Pharmaceutical Water Systems using Highly Reflective UV Disinfection
Randy Cooper, Neotech Aqua Solutions
11:15 AM-New Calibration Methods for Conductivity Systems
John Groetsch, METTLER-TOLEDO Process Analytics
11:45 AM-Development of an Improved Pharmaceutical Cosmetic Plant Water System
Chris Gallagher, Mar Cor
12:15 PM-Lunch Break
1:30 PM-The Efficacy of Ozone and Chemical Sanitization for Microbial Control
Nissan Cohen, Rohrback Cosasco Systems, Inc.
2:00 PM-Verifying Pharma UPW Excursions with an Automated TOC Sample Capture and Validation Method
Terry Stange, Ph.D., and Chris Crone, Hach ULTRA; and Slava Libman, Ph.D., Balazs Air Liquide
2:30 PM-TOC Measurement Improvements for Pharmaceutical Water Treatment Applications
Roger Schmid and Randy Turner, SWAN Analytical
3:00 PM-Improving WFI and CIP Process Control Using Dual Input Instrumentation
Chris Crone, ULTRA
Chemistry in Power Plants 2012 focused on European Power Plants
The power industry is an important market for chemicals suppliers. Nalco and some other suppliers participated in Chemistry in Power Plants 2012.

Event Start Date: 2012.10.24 Event Start Time: 9:00 Event End Date: 2012.10.25
This VGB annual Conference took place at the CCH-CONGRESS CENTER HAMBURG, Germany.
The conference is a forum for operators of energy utilities and industrial power plants.
The following major items were presented at the conference:
• Conditioning of water steam cycles and cooling water cycles
• Methods of water preparation and waste water treatment
• Chemical aspects of co-firing secondary fuels
• Chemical aspects of flue gas cleaning methods and CO2 separation
• Analytic and quality assurance
• Chemistry in nuclear power plants
The conference was accompanied by a Foyer Exhibition, the exhibitors were:
AGIR Dreherei & Filter, Plochingen, Germany
Aquis Wassertechnik GmbH i.G., Butzbach, Germany
Ashland Water Technologies, Krefeld, Germany
Berkefeld/VWS Deutschland GmbH, Celle, Germany
BK Giulini GmbH BKG Water Solutions, Düsseldorf, Germany
Centec GmbH, Maintal, Germany
Chemische Fabrik Wocklum Gebr. Hertin GmbH & Co. KG, Balve, Germany
Chemische Fabrik Wibarco GmbH, Ibbenbüren, Germany
CWB Wasserbehandlung GmbH, Berlin, Germany
Deutsche METROHM GmbH & Co. KG, Filderstadt, Germany
Dow Deutschland Anlagengesellschaft mbH, Schwalbach, Germany
ElringKlinger Kunststofftechnik GmbH, Bietigheim-Bissingen, Germany
Endress + Hauser Messtechnik GmbH & Co. KG, Weil am Rhein, Germany
EPSCO Ltd., Perth, Scotland
FINEX OY, Kotka, Finland
GBT Bücolit GmbH GmbH, Marl, Germany
Georg Fischer GmbH, Albershausen, Germany
Ing. Büro Gronowski, Berlin, Germany
Grünbeck Wasseraufbereitung GmbH, Höchstadt, Germany
HACH LANGE GmbH, Düsseldorf, Germany
Hager + Elsässer GmbH, Stuttgart, Germany
Hamm Chemie GmbH, Oberhausen, Germany
HAW LININGS GmbH, Bockenem, Germany
Gebr. Heyl Vertriebsgesellschaft für innovative Wasseraufbereitung mbH, Hildesheim, Germany
Infracor GmbH, Marl, Germany
JNW CleaningSolutions GmbH, Bochum, Germany
Knick Elektronische Messgeräte GmbH & Co. KG, Berlin, Germany
Kurita Europe GmbH, Viersen, Germany
LANXESS Deutschland GmbH, Leverkusen, Germany
LECO Instrumente GmbH, Möchengladbach, Germany
Dr. Leye GmbH, Geringswalde, Germany
Mettler-Toledo GmbH Prozessanalytik, Gießen, Germany
MionTec GmbH, Leverkusen, Germany
Nalco Deutschland GmbH, Marl, Germany
ORBEN Wasseraufbereitung GmbH & Co. KG, Wiesbaden, Germany
OSMO Membrane Systems GmbH, Korntal-Münchingen, Germany
Pall Industrial, Saint Germain-en-Laye, Frankreich
PANalytical GmbH, Kassel, Germany
ProMinent Dosiertechnik GmbH, Heidelberg, Germany
Purolite (Deutschland) GmbH, Ratingen, Germany
r-concept - Dr. Bernhard Ruchti, Laupheim, Germany
ROKA GmbH, Butzbach, Germany
Swan Systems AG, Hinwill, Switzerland
Thermo Fisher Scientific, Idstein, Germany
DR. THIEDIG + CO, Berlin, Germany
Voigt GmbH, Wernau, Germany
WALTRON B.V., Panningen, The Netherlands
WAT-Membratec GmbH & Co. KG, Erkrath, Germany
H. Wösthoff Meßtechnik GmbH, Bochum, Germany
WP-ARO GmbH, Alzenau, Germany
The Electricity Chemistry Workshop will be in Champaign, IL on June 11-13, 2013
The Electricity Chemistry Workshop is now in its 33rd year. This comprehensive program features state-of-the-art information on controlling corrosion, improving operation efficiency, and meeting environmental challenges in fossil- and nuclear-fueled power plants. This year’s program is geared toward improved training and continuing education of personnel responsible for electric utility cycle and environmental chemistry.
More than 3,000 chemists, consultants, and power plant administrators have attended the workshop since its inception in 1981. The 2013 program has been developed by a committee of representatives from Midwestern Electric Utilities, the Illinois State Water Survey, the University of Illinois at Urbana Champaign and consultants serving the power industry.
Exhibitors include the following:
Advanced Sensors
Aquatech International Corporation
AVANTech, Inc.
Baker Hughes PMG
CHEMetrics, Inc.
Chemtrac, Inc.
Conco Systems Inc.
Day & Zimmermann
GE Power & Water
Graver Technologies
Hach
Illinois Water Technologies
Industrial Analytics Corp
LANXESS Sybron Chemicals Inc.
Layne Christensen
Martek Instruments, Inc.
Mettler-Toledo Thornton
Nalco Company
Ovivo Water
Plastocor, Inc.
Plymouth Tube Co.
Process Solutions, Carmel IN
Process Solutions, Inc., Campbell, CA
Sentry Equipment
Siemens Industry, Inc.
Solutions Inc
Swan Analytical USA
Thermo Fisher Scientific Water Analysis Instruments
Veolia Water Solutions & Technologies
Waltron L.L.C.
Waters Equipment
Wolcott Water Systems, Inc
There will be some valuable presentations on treatment chemicals. Here are some of the abstracts:
Troubleshooting an Ion Exchange Unit Mixed Bed
Don Downey, Purolite
In the water treatment plant the Ion exchange mixed units can be your best friend or worst enemy. Mixed bed can provide very high quality water, for days, weeks or even months without regeneration. This means less hand on by operations allowing more time for other task. Compared to normal demin trains that could regenerate up to twice/day, operators do not retain the day to day routine of regenerating a mixed bed can become unfamiliar with how to trouble shoot problem. When a mixed bed unit does not work properly – it could take months or even years to get it back into proper operation. This paper will discuss some of the author’s +35 years of experience with trouble shoot and repairing various mixed bed system in North America. It will cover cases involving resin problems, mechanical failure inside the vessels and changes in feed water quality
Evaluating the Use of Condensate Polishers: Economic and Operational Considerations
Colleen M. Layman, HDR Engineering Inc
Today’s power plant steam-water cycles are subjected to more strenuous chemistry challenges than ever. Guidelines developed by EPRI, ASME, VGB and other organizations recommend stricter control of condensate, feedwater, and boiler/HRSG operating chemistry limits to prevent corrosion and deposition in the steam/water cycle. The power delivery market requires many units, including some that were not initially designed for such, to operate on a cycling basis and often also necessitate quick startup times. Water management practices have driven operators to cool the turbine exhaust steam with recycled water sources or increase cycles of concentration in fresh water towers. Factors such as these can make condensate polishers valuable tools in power generating facilities today. However, condensate polishers can be costly to install. They incur significant operating and maintenance costs, generate a wastewater stream which must be treated and disposed of, and require trained staff to maintain. The question of “to polish or not to polish” can be a complicated and difficult one. This paper will provide an overview of condensate polishing technologies and configurations, including the pros and cons associated with each technology and configuration. It will also provide a risk-based cost-benefit analysis to assist owners/operators in determining whether they should consider implementing condensate polishing at a new or existing facility. The paper will address situations in which each of the various types of polishers are best suited for application and discuss basic criteria for proper polisher technology selection and implementation at a power generating facility.
Manganese-Induced Pitting of Stainless Steel Piping and Heat Exchanger Tubing
George J. Licina, Structural Integrity Associates
Many power plant heat exchangers and piping systems have experienced severe degradation due to pitting beneath manganese-rich deposits. Such failures occurred in heat exchangers tubed with copper based alloys and especially with stainless steels. Such failures continue today. Plants that have been plagued with this problem have generally been confounded by it. Often, the problem is incorrectly diagnosed as microbiologically influenced corrosion (MIC), based upon the morphology of the pits, however, the same tunneling pit morphology that is often associated with MIC of stainless steel can be produced when manganese rich deposits contact chlorinated water, whether bacteria are present or not. As such, chlorination or increased chlorination to address a supposed MIC problem will simply exacerbate situations where manganese-induced pitting by producing an even more aggressive underdeposit environment. This paper will provide an overview of manganese-induced pitting, discuss the operative mechanisms, and provide recommendations for diagnosis and control.
Photosynthesis-Inhibiting Biocide Solves Algae Fouling Problems in Recirculating Water Systems
Jeffrey Kramer, BWA Water Additives
Cooling tower systems offer the ideal conditions for microbiological fouling: warm heat transfer surfaces, exposed to the open air, complete with sunlight. Algae growth can accumulate on wet cooling system surfaces, particularly during the prime cooling season, thereby impeding heat transfer, leading to increased energy consumption. Algae growth can also cause cooling tower surfaces to be slippery, creating a work safety hazard. Even in closed loop systems where treated sanitary wastewaters and recirculating cooling water ponds are utilized to remove and dissipate unwanted heat from heat exchangers and other plant processes, it can be challenging to control algae. Many common industrial biocides applied do not offer adequate protection against algae, which is difficult to remove, particularly if low flow conditions exist in parts of the distribution system. One specialty algaecide, terbuthylazine (TBZ), has been particularly successful at resolving algae issues in power plant cooling towers and holding ponds due to its ability to inhibit photosynthesis. This paper will examine a field application of TBZ and the resulting impact on cooling system operations.
Novel Biocide Program Maintains Condenser Cleanliness for Power Plant
Chris Baron, Ashland Water Technologies
A zero liquid discharge power plant in New England had historically been challenged with maintaining condenser cleanliness and maximum power production as an apparent result of high iron and manganese in the cooling tower make-up. Additionally, the cooling tower operated at 40 cycles of concentration, exceeding saturation indices. Under these operating conditions, the plant had been shutting down 2 to 3 times per year to clean the condenser with significant lost efficiency in between and during cleaning cycles. Past treatment focused on inorganic oversaturation of silica, iron, and calcium. Ashland sought to understand the fouling mechanism through the use of the OnGuard™ 2-plus analyzer, a proprietary monitoring and control system. This technology accurately simulates the steady state conditions in plant heat exchangers while revealing differentiation among various causes of fouling (e.g., sedimentation, scaling, microbiological, etc.). This diagnostic tool was essential in validating the response to the treatment program changes before they could impact plant efficiency. As a result, it was discovered that fouling rates were dependent on Oxidation-Reduction-Potential (ORP) and not mineral saturation. Although traditional bio-assay slides suggested good bacterial control, the OnGuard 2-plus analyzer results indicated that the fouling mechanism was biological in nature. Based on this information, Ashland recommended a new biocide, Biosperse™ XD3899 Microbiocide. The active, Bromide-Activated Chloramine (BAC), performs at much lower ORP relative to traditional strong oxidizers and not only stabilized, but effectively reversed the established condenser fouling. This paper will present data correlating the optimization of the BAC treatment program with a reduction in fouling. The plant is now setting power generating records and shows no indications of condenser fouling after six months.
Optimization and Successful Chemical Cleaning of a Supercritical Boiler
Christopher Hegger, Ameren Missouri
Since changing boiler chemistries to oxygenated treatment in the mid-90's, the once through supercritical boilers at Ameren's Sioux Energy Center have struggled with obtaining adequate boiler chemical cleans. This paper describes the procedural and equipment modifications made to the boiler chemical cleaning process, which lead to a successful clean in 2012.
Cooling Water Microbial Control Impacts Overall Plant Performance
Kevin Boudreaux, Nalco Power ITC
A good cooling water treatment programs consists of many different components. Of these, microbial inhibition presents a special challenge because of the variability in makeup water sources, plant processes, and discharge permits. These struggles typically manifest themselves as an overall degradation in plant performance; mainly heat rate and loss of capacity. Regardless of the measurement used to determine the success or failure of a water treatment program, failure to maintain the proper microbial inhibition program will result in a significant financial and environmental impact. AEP Conesville, in Conesville, Ohio, is a conventional, coal fired, 1695MW plant. The plant is composed of six units, three of which are retired. The remaining three units were commissioned between 1973 and 1978. As with many units commissioned during this time period, the chemical feed systems are both dated and unreliable. With this deterioration in reliability, maintaining the proper biocide program has become onerous. The degradation in condenser performance is directly related to poor microbial inhibition. This paper discusses how the plant designed and implemented a trial to determine the costs and effects of improved microbial inhibition practices. Results of the trial, as well as how the results were used to justify the costs for new feed equipment, will also be discussed.
Asian Ultrapure Water Sales to Exceed $3 Billion in 2015
In the rapidly growing Asian market, sales of ultrapure water systems and consumables will exceed $3 billion for the first time ever in 2015. This is the conclusion reached in the McIlvaine online report Ultrapure Water World Markets.
Industry Totals ($ Thousands)
Industry 2015
Coal-Fired Power 1,044,935
Electronics 993,932
Flat Panel 662,483
Gas Turbines 33,210
Industrial Power 172,169
Other Industries 79,009
Pharmaceutical 138,426
Asia is building more new coal-fired power plants than the rest of the world combined. The majority of these power plants are of the ultrasupercritical design. These power plants need the highest purity boiler feedwater. Contrary to public perception, the Chinese fleet is operating more efficiently than the U.S. counterpart. The reason being that most of the Chinese plants have been built since 2000. By contrast, the average coal-fired power plant in the U.S. is more than forty years old. Asia has been quick to embrace newer technologies such as electrodeionization (EDI) as a substitute for ion exchange.
Asia is proceeding with come nuclear power plants. These power plants require the highest quality water. Combined cycle gas turbine plants also require high quality water but their needs per megawatt are less than half of that of a coal-fired power plant.
Over 50 percent of the market is attributable to the electronics and flat panel segment. Asia has more electronics facilities using ultrapure water than the other continents combined. One of the bigger growth segments in China has been photovoltaic cells for the solar industry. These plants do require ultrapure water although not as pure as required for semiconductor manufacture.
The one application where Asia does not dominate is pharmaceuticals. Water for injection (WFI) needs to be ultrapure because it is mixed with substances which are then injected into humans. The bulk of the manufacturing of pharmaceuticals is still in the U.S. and Europe.
Special instrumentation which can measure dissolved oxygen and other constituents in parts per billion are required in ultrapure water systems. There are a series of filtration steps ending in treatment by reverse osmosis. Even after the water is ultrapure there is a concern about re-contamination in pumps and piping. Consequently, in a semiconductor plant, the water leaving the RO system passes through piping and then into an end point membrane cartridge filter before being used to wash the wafer.

For more information on Ultrapure Water World Markets: click on: http://home.mcilvainecompany.com/index.php/component/content/article?id=71#n029
Here are the Headlines for the May 3, 2013 – Utility E-Alert
UTILITY E-ALERT
#1123 – May 3, 2013
Table of Contents
COAL – US
 Lawsuit against Santee Cooper Grainger about Seepage containing Arsenic from Ash Pond
 Navajo Nation OKs Coal-fired Power Plant Lease Extension
 Power4Georgians restructures, will not Own 850 MW Washington County Power Plant
 WPL receives approval for FGD/Baghouse at Edgewater 5
 Construction to begin next Year on La Paloma Power Plant in Texas
COAL – WORLD
 Hitachi to modify NTPC Rihand ESPs
 450 MW Khanyisa Waste Coal-fired Project in South Africa delayed
 Uzbekenergo plans 450 MW Power Plant in the Namangan Region of Uzbekistan
 Groundbreaking for Jindal Steel and Power 1320 MW Captive Power Plant in Godda district, Jharkhand, India
 1200-MW Power Plant at Matarbari, Cox's Bazar, Bangladesh
 BHEL to build Odisha Power Generation 2x660 MW Banharpali Units III and IV in India
 Environmental Questions about Adani/SEZ Power Project in Mundra, Gujarat, India
 Alstom to supply Equipment for 2x800 MW Gadarwara Super Thermal Power Plant in Madhya Pradesh, India
 S&L/Kiewit JV to install Emissions Controls at Petersburg and Harding St. 7
GAS/OIL - US
 Alliant Energy’s 600 MW Marshalltown Combined Cycle Project moving Forward
 Celanese Corp. to swap Coal Boilers for Natural Gas-fired Ones in Virginia
 We Energies plans to convert Valley to Gas-firing by 2015
 IPL to build 650 MW Combined Cycle Power Plant at Eagle Valley Station
 Vogt Power to supply HRSGs to TECO’s Polk Power Station
GAS/OIL – WORLD
 Notore Partners with ContourGlobal on 500 MW Power Plant in Onne, Nigeria
 Capital Power’s Genesee Power Plant in Alberta, Canada, is Site for Proposed 900 MW Natural Gas-fired Power Plant
 EBRD Loan for 450 MW Stalowa Wola Combined Cycle Power Plant in Poland
 MPX Energia to build 56 MW Power Plant in Maranhao, Brazil
 Siemens to provide Gas Turbines for 535 MW Punta del Tigre in Uruguay100 MW Gas Turbine Power Station in Bayelsa State, Nigeria
 Meralco and Chubu Electric to build 1,500 MW LNG-fired Power Plant in Quezon, Philippines
BIOMASS
 Altavista Power Plant reopens as Biomass-fired Plant
COMBUSTION TECHNOLOGIES/BOILER EFFICIENCY
 Metso to modernize Automation and Field Instrumentation at Helsingin Energia’s Salmisaari Power Plants in Finland
 Industry Groups and States ask Supreme Court to Review EPA’s Greenhouse Gas Regulations
NUCLEAR
 NRC rules against NRG/Toshiba Partnership for South Texas Project
 Delays for Sizewell C and Hinckley Nuclear Power Projects in the UK
 CEZ wants New Bids from Westinghouse and Atomstroiexport for Temelin Nuclear Power Project
 Dominion to use GE Hitachi Reactor if it builds North Anna 3
 MHI and Areva to build 4,800 MW Sinop Nuclear Power Plant in Turkey
 Experts divided on Controversial Longmen Nuclear Power Plant in Taiwan
 Slower Growth drives Duke Energy to suspend Plans for Harris Nuclear Power Plant Expansion
BUSINESS
 Nigeria offers to sell 500 MW Omotosho Power Plant to Chinese Firm
 Minister of Energy says Mongolia to be Energy Self-sufficient by 2014
 Electric Power May 14-16 - Rosemont
 Investment in Refurbishing and Maintaining Coal-fired Power Plants will Increase by 40 Percent over the Next Five Years
 Asian Market for Stationary and Mobile Catalytic System Revenues to Approach $12 Billion this Year
HOT TOPIC HOUR
 “Fossil-fired Power Industry Water Flow and Treatment Issues and Markets” was Hot Topic Hour on May 2, 2013
 “Clean Coal Technologies” will be the subject of the Hot Topic Hour on May 9, 2013
 Upcoming Hot Topic Hours
For more information on the Utility Tracking System, click on: http://home.mcilvainecompany.com/index.php?option=com_content&view=article&id=72
McIlvaine Hot Topic Hour Registration
On Thursday at 10:00 a.m. Central time, McIlvaine hosts a 90 minute web meeting on important energy and pollution control subjects. Power webinars are free for subscribers to either Power Plant Air Quality Decisions or Utility Tracking System. The cost is $125.00 for non-subscribers. Market Intelligence webinars are free to McIlvaine market report subscribers and are $400.00 for non-subscribers.
2013
DATE SUBJECT
May 16 Power Plant Automation and Control plus Electric Power Conference summary Power
May 23 Cooling Towers Power
May 30 Air Pollution Control Markets (geographic trends, regulatory developments, competition, technology developments) Market Intelligence
June 6 Report from Power-Gen Europe (update on regulations, speaker and exhibitor highlights) Power
June 13 Monitoring and Optimizing Fuel Feed, Metering and Combustion in Boilers Power
June 20 Dry Sorbent Injection and Material Handling for APC Power
June 27 Power Generation Forecast for Nuclear, Fossil and Renewables Market Intelligence
July 11 New Developments in Power Plant Air Pollution Control Power
July 18 Measurement and Control of HCl Power
July 25 GHG Compliance Strategies, Reduction Technologies and Measurement Power
August 1 Update on Coal Ash and CCP Issues and Standards Power
August 8 Improving Power Plant Efficiency and Power Generation Power
August 15 Control and Treatment Technology for FGD Wastewater Power
August 22 Status of Carbon Capture and Storage Programs and Technology Power
August 29 Pumps for Power Plant Cooling Water and Water Treatment Applications Power
Sept. 5 Fabric Selection for Particulate Control
Power
Sept. 19 Air Pollution Control for Gas Turbines Power
Sept. 26 Multi-Pollutant Control Technology
Power
To register for the Hot Topic Hour, click on:
http://www.mcilvainecompany.com/brochures/hot_topic_hour_registration.htm.
----------
You can register for our free McIlvaine Newsletters at: http://www.mcilvainecompany.com/brochures/Free_Newsletter_Registration_Form.htm.

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

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