Chinese Pump Revenues to Exceed $8 Billion in 2014
Industrial pump purchases in China will rise from $7.4 billion this year to over
$8 billion in 2014 for an increase of eight percent. This is the latest forecast
in Pumps World Markets published by the McIlvaine Company
(www.mcilvainecompany.com)
Chinese Pump Revenues
($ millions)
Industry 2013 2014
Total 7,448 8,032
Chemical 467 510
Electronics 20 20
Flood Control 104 114
Food 175 191
Metals 156 170
Mining 574 626
Oil and Gas 98 108
Other Industries 539 589
Pharmaceutical 41 47
Power 1,102 1,160
Pulp & Paper 205 226
Refinery 116 128
Stone 838 913
Wastewater 1,529 1,586
Water 1,486 1,644
Municipal water and wastewater will be the leading application segments. China
is rapidly building its water infrastructure. It is also adding secondary
treatment capacity to treat wastewater.
Power is the next largest category and will account for pump revenues in excess
of $1.1 billion. China is building more coal-fired power plants each year than
any other country. It is also retrofitting scrubbers to capture SO2. These
scrubbers require large pumps.
The stone and cement industry is also a big segment. China produces more than 50
percent of the worlds cement. The mining industry is also a big purchaser. China
is the world’s leading coal producer. Because of lack of rail infrastructure
more of this coal is conveyed in slurries to the power plants than in other
countries.
China is moving forward in the oil and gas sector. It is a leader in direct
liquefaction of coal. This process requires a substantial investment in pumps.
For more information on Pumps World Markets click on
http://home.mcilvainecompany.com/index.php/component/content/article?id=75
Coal will Generate 77 Percent of the Flow Control and Treatment Revenues in the
$45 Billion Power Market
In 2013 power plants around the world will invest over $45 billion in flow
control and treatment equipment. Seventy-seven percent of this total will be
utilized in coal-fired power plants. The next largest segment, which is gas
turbines, will account for less than 10 percent of the total. These are the
conclusions reached by aggregating the forecasts in a number of McIlvaine market
reports (www.mcilvainecompany.com).
Flow Control and Treatment Revenues 2013
($ Millions)
Fuel Type GW Pumps Valves Filt/Sep Air Treatment Instrument Total
Coal 126 2000 4200 5450 22200 1700 35676
Gas (Turbines) 72 400 1000 1100 1300 400 4272
Nuclear 16 200 1600 1100 100 300 3316
Geothermal 2 100 100 50 100 50 402
Solar 5 20 30 10 10 75
Wind 17 50 100 50 50 267
Biomass 8 30 70 30 300 40 478
Hydro 30 400 400 10 50 890
Total 276 3200 7500 7800 24000 2600 45376
One reason that coal-fired power plants will dominate the purchases is that they
will account for nearly half of the 276 GW of new capacity which will be
installed in 2013. The second reason is that there is a much bigger investment
in flow control and treatment per unit of capacity. The solar generating
capacity increase will be only 5 GW but total photovoltaic sales will be 35 GW.
The filtration and separation segment includes water and wastewater chemicals
which comprise more than 50 percent of the total. Sedimentation, centrifugation,
macrofiltration, crossflow membranes and cartridges account for the remainder.
Disinfection, ion exchange, and biological treatment are not included.
The relatively high value of the nuclear valve segment is due to the large
number of replacement valves being purchased. This has to do with safety
concerns.
The air treatment segment includes NOx control, flue gas desulfurization (FGD),
fabric filters, and electrostatic precipitators. Catalysts and bags are also
included.
Instrumentation includes continuous emissions monitoring systems (CEMS) for
stack gas, combustion gas analyzers, water monitoring instruments and relevant
control systems including advance process control and distributed control
systems.
For more information on the relevant air, water, and energy reports click on
www.mcilvainecompany.com
Flue Gas Desulfurization Revenues Will Range between $3 Billion and $8
Billion/Yr Over the Next Three Years
Over the next three years revenues for new flue gas desulfurization (FGD)
systems (not including repairs) will rise and fall over a range of $3 billion to
$8 billion per year. The reason for the substantial fluctuation is the size of
individual orders, the definition of the cost, scope, and chronology. These new
forecasts appear in FGD World Markets published by the McIlvaine Company
(www.mcilvainecompany.com)
Minimum FGD Orders
($ Millions)
Continent 2013 2014 2015
Africa 89 15 15
America 220 1,122 581
Asia 2,128 2,101 2,075
Europe 659 777 767
Total 3,096 4,015 3,438
The above forecast is based on orders and not actual booked revenues. It assumes
a four year delay from order to startup for FGD systems for new units. It
assumes three years for retrofits. The revenue per MW is as low as $70/kw for
new FGD systems in China, which represents typical vendor scope in China. Since
two-thirds of the market (in MW) is for new coal-fired power plants in China,
this low value makes a big difference in the estimate of market size.
The present forecasts also assume a slowdown in orders for new Chinese power
plants in the next three years, but this forecast is subject to change as plans
become more firm. In China the turnaround on a new coal-fired power plant is as
little as two years.
By contrast the average retrofit project in the U.S. costs $300-400/kw. This
includes lots of cost borne directly by the utility and also costs of new fans
and other components which are typically included by the utilities in estimating
their project costs.
The year 2014 will be a bigger year in the Americas segment due to the new U.S.
Utility MATS rule. This requires compliance with hydrogen chloride emission
limits. The FGD scrubbers remove both SO2 and HCl. There are some new FGD
systems in Latin America. Chile is installing a number of dry FGD systems.
In Europe there are some new coal-fired power plants and replacement of existing
old FGD systems. There is little activity in Africa.
Asia is the big market. It will account for 50 to 70 percent of the total over
the three year period. China will be the largest Asian purchaser. It is
installing FGD with all the new coal-fired power plants. Also there are retrofit
projects driven by tougher SO2 limits. The Japanese market may rebound due to an
initiative to rely on coal to a greater extent.
India offers considerable long range potential. To date there have been a few
seawater scrubbers installed on power plants, but most have no SO2 removal
devices. Tougher regulations are anticipated, so FGD companies are positioning
themselves to pursue this market. Mitsubishi Heavy Industries is partnering with
BHEL to pursue this opportunity. Other international suppliers such as Alstom
are also active.
For more information on FGD World Markets, click on:
http://home.mcilvainecompany.com/index.php?option=com_content&view=article&id=48#n027
Transmission Lines Needed to Move Renewable Power
As the following examples illustrate new transmission lines are being
constructed around the world to bring renewable energy to customers. McIlvaine’s
Renewable Energy Projects and Update continues to track these installations.
ITC Submits ITC Great Plains Expansion Project to Southwest Power Pool
The ITC Great Plains Expansion Project plan was developed through more than a
year of extensive study of regional needs. It identifies and proposes a package
of high-voltage electric transmission projects designed to relieve system
constraints impeding the export of excess energy capacity inter-regionally. The
five projects involve seven states and more than 2,700 miles of new transmission
line. This AC-based approach reflects the interconnectivity of the power grid
and provides a solution to integrate a variety of energy sources, enhance
overall grid reliability and provide flexibility and optionally throughout the
Southwest Power Pool (SPP) regional transmission organization footprint.
Developed by ITC Great Plaines, LLC, a subsidiary of ITC Grid Development, the
ITC Great Plains Expansion Project proposal involves five primary 345 kV AC
transmission lines consisting of multiple west-to-east segments originating in
Nebraska, Kansas, Oklahoma and Texas, and terminating in Iowa, Missouri and
Arkansas. The project plan aligns with one or more of the ITP20 Planning Futures
for which SPP (a regional transmission organization) recently issued a request
for projects. ITC Great Plains submitted this proposal into the SPP ITP20
planning process and SPP will enter the draft project portfolio into its ongoing
planning analysis and stakeholder review process. ITC Great Plains will work
with SPP and other stakeholders in the SPP Integrated Transmission Planning
(ITP) process, and other associated planning processes, to highlight the
benefits for customers associated with these projects.
The ITC Great Plains Expansion Project provides a framework for relieving
constraints in the underlying system for exporting energy from the western part
of SPP to load centers east of the SPP footprint. The proposed transmission
lines follow these general routes:
East-central Nebraska to north-central Iowa
Western Kansas to southern Iowa
Southwest Kansas to south-central Missouri
Western Oklahoma to south-central Missouri
Eastern Texas across southern Oklahoma to southwest Arkansas
Current ITC Great Plains projects and partnership successes
Salazar Approves Transmission Line for Campo Verde Solar Project
Secretary of the Interior Ken Salazar has approved construction of the
transmission line for First Solar’s Campo Verde Solar energy project, which will
cross public lands southwest of El Centro, CA.
The 139-MW solar energy project is expected to support more than 250 jobs
through construction and operations, generate $17.5 million in local tax revenue
over the life of the facility, and provide an estimated $239 million of
financial benefits to local, county and state economies. At full capacity, when
built, the Campo Verde Solar facility will produce enough electricity to power
41,700 homes.
Electricity from the Campo Verde photovoltaic plant will be transmitted to the
San Diego Gas and Electric’s Imperial Valley Substation. The Campo Verde
facility is located on about 1,443 acres of previously-developed,
privately-owned land southwest of El Centro, CA. Interior, who has only
authority over the section of the transmission line on federal lands, approved
the right-of-way for 17 acres for the power line on public land, and Imperial
County authorized the solar power plant on August 27, 2012. Because the
development on private land is related to the federal Right-of-Way for the
transmission line and the transmission line cannot cross public lands without
Interior approval, the Environmental Assessment had to consider the cumulative
impacts of the generation project in its analysis of the transmission proposal.
Windreich and TenneT Agree on Interim Connections for Offshore Wind Farm,
Deutsche Bucht
The Windreich Group, which is comprised of British Wind Energy GmbH and TenneT
TSO GmbH, has signed an agreement for the production of a temporary grid
connection of the offshore wind farm, “Deutsche Bucht.” Subsequently, the wind
farm Deutsche Bucht will be connected to the already-commissioned grid
connection, BorWin2 by TenneT to serve as a temporary solution in order to
generate power until the originally-intended wind farm grid connection, BorWin4,
is completed. While BorWin4 is still in the tendering phase, BorWin2 is already
under construction with a total capacity of 800 MW. The primary legitimate
offshore wind farms are Veja Mate and also the 400-MW wind farm Global Tech I
initiated by Windreich AG. After the grid connection BorWin4 is completed, the
wind farm Deutsche Bucht in 2015 is secured, reckons Dipl.-Wirt.-Ing. (FH) Willi
Balz. The CEO of Windreich AG states, “Our common interest in contract
negotiations was to successfully contribute to the implementation of the energy
transition, to which billions of Euros have been invested from both companies,
respectively.” Lex Hartman, a member of the Board of TenneT also stresses, “We
want to promote the development of offshore wind energy, so that the objectives
of the energy transition can be achieved. I am therefore delighted that together
with Windreich AG, we have quickly and constructively found a pragmatic solution
for the wind farm Deutsche Bucht.
The installation commissioning and acceptance of the converter stations, cable
conduction and installation of the AC cable will continue to be managed under
the responsibility of TenneT TSO. These regulations shall not be affected by the
temporary grid connectivity.
EIB Reinforces Its Support for Upgrading Poland’s Energy Distribution Network
The European Investment Bank (EIB) is lending PLN 950 million (approximately
€230 million) over 15 years to ENEA S.A., the top company of the ENEA Capital
Group, one of the four largest vertically-integrated energy groups in Poland.
The loan, the Bank’s first operation with ENEA, will finance the maintenance,
modernization and extension of the group’s electricity networks in the Northwest
of Poland, managed by its regulated subsidiary ENEA Operator.
The EIB loan will help to implement ENEA’s four-year investment program in
energy distribution, comprising some 40,000 independent and geographically
dispersed distribution network upgrading schemes a year, including for example
the installation of new, enlarged and refurbished assets.
The program will make possible the connection of some 25,000 new system users
per year, contribute to meeting the challenge of the increasing demand for
services, improve the reliability of the electricity supply by around 30 percent
and help to reduce energy losses.
The EIB supports renewable energy, energy efficiency and energy infrastructure
modernization projects in Poland while at the same time recognizing important
energy security considerations. It has already provided €212 million in 2012 for
the upgrading and extension of Polish electricity grids. Including the current
operation, the EIB has granted loans to Poland’s energy sector amounting to some
€2 billion.
Enbridge and Borealis Infrastructure Join NextEra Energy Canada to Bid for the
Opportunity to Develop New Power Transmission in Northern Ontario
NextEra Energy Canada, Enbridge and Borealis Infrastructure announced that they
have filed for regulatory approval to allow Enbridge and Borealis to acquire
interests in NextEra Energy Canada’s subsidiary, Upper Canada Transmission, Inc.
Upper Canada Transmission, Inc. intends to bid for the opportunity to develop a
new transmission line in Northern Ontario between Wawa and Thunder Bay as a
joint venture through a limited partnership among affiliates of NextEra Energy
Canada, Enbridge and Borealis. The venture plans to operate under the name
NextBridge Infrastructure.
The proposed Ontario East-West Transmission Tie is expected to increase
reliability, allow for the retirement or conversion of northern coal facilities
and increase the ability to develop renewable generation in the region. If
selected, the consortium expects to develop, construct, own and operate the new
line under the regulatory oversight of the Ontario Energy Board. The expected
in-service date is as early as 2017.
An Ontario Power Authority report has identified the project as a 400-km, 230-kV
transmission line with an estimated investment of $600 million. The report
states that the cost of the project is expected to be outweighed by the savings
to the rate payers of Ontario through lower congestion resulting in decreased
generation costs, lower losses and increased liability.
For more information on Renewable Energy Projects and Update please visit:
http://www.mcilvainecompany.com/brochures/Renewable_Energy_Projects_Brochure/renewable_energy_projects_brochure.htm
“Mercury Measurement and Control – Part 3” is “Hot Topic Hour” on April 18, 2013
at 10:00 a.m. DST
NOTE: Because of the great interest in this subject and the number of persons
that desired to make a presentation, we scheduled three Hot Topic Hours on
“Mercury Measurement and Control” on March 28th, April 11th and April 18th.
Persons that registered for the first or second session will automatically be
registered for the third.
Late in December of 2012, the U.S. EPA released the final “Utility MACT” rule,
also referred to as the “Mercury and Air Toxics Standards” (MATS) rule,
establishing mercury and air toxics standards for coal- and oil-fired electric
generating units (EGUs) larger than 25 MW. Although several groups have filed
lawsuits challenging various parts of the rule, the court has not stayed it.
Therefore, all existing EGUs will have three years to comply with the standards
although the rule allows states to grant specific units an additional year for
equipment installation.
The mercury emission limits imposed by MATS on coal- and oil-fired boilers are
very low, so low that it is questionable whether or not the required reductions
can be achieved in all cases given the constraints imposed by reducing other
pollutants simultaneously. Many also believe that it may be very difficult to
measure mercury reliably and accurately to determine and prove what removal
efficiency is actually being achieved.
Control of mercury emissions from coal-fired boilers is currently achieved via
three general broad methods: use of coals with low mercury content along with
coal preperation or washing, activated carbon injection (ACI), and various
multi-pollutant control technologies in which Hg capture is enhanced in existing
control devices for SO2, NOx, and particulates. Multi-pollutant methods include
capture of Hgp in PM control equipment and soluble oxidized Hg compounds in wet
flue gas desulfurization (FGD) systems. SCR NOx control systems are also used to
enhance oxidation of elemental Hg0 in flue gas to increase the mercury removal
in a wet FGD.
The overall scheme of air, water and waste disposal regulations such as CSAPR,
NAAQS, 316a/b and RCRA will make it even more difficult to develop a strategy
and select the most appropriate method for mercury control. An integrated
approach that considers how to capture mercury as well as other pollutants and
dispose of them in an environmentally friendly manner will be necessary.
The following speakers will help us understand the current situation relative to
the monitoring and control of mercury from coal- and oil-fired power plants and
address the key issues to be considered when developing the optimum strategy to
achieve compliance with the MATS; discuss potential control technologies
available for operators to achieve compliance and the advantages and
disadvantages of the various control technologies as well as criteria for
selecting specific technologies – existing facility configuration, existing
control equipment installed, fuel type and others; present the multi-emission
control technologies available and under development with their applicability,
capabilities, and limitations and any other alternatives available to achieve
compliance with the Utility MATS.
Presenters for Mercury Measurement and Control Part 3 on April 18th
Mark R. Sankey, Senior Specialist for AQCS at Bechtel Power Corporation, will
present “Mercury Control for Coal-fired Power Plants – Interaction of Other
Technologies”. His presentation will review the effectiveness of existing
control equipment and capabilities of new equipment and technologies as they
relate to control of mercury emissions. The concepts of multi-pollutant control,
co-benefits, and the interrelationships of various technologies and pollutants
will be addressed. This will include discussion of undesirable effects that
occur due to interactions between various pollutants and technologies.
Neil C. Widmer, Sr. Manager/ Product Line at GE Power and Water, will present
“Application of Combustion Optimization to Reduce Activated Carbon Requirements
for MATS Compliance”. One of the challenges utilities will face is minimizing
the cost of compliance. GE Power & Water has developed a process for the
application of combustion optimization in conjunction with activated carbon
injection (ACI) to reduce the amount of carbon injection needed to reach a
specific mercury emissions target and, hence, significantly reduce operating
costs. In this presentation, GE will show the results of a DOE sponsored program
to demonstrate the benefits of combustion optimization in conjunction with ACI
on a large utility boiler. The results show the challenges faced with ACI
injection on a boiler equipped with a small ESP and demonstrate that GE’s
approach to integrating combustion optimization into MATS compliance can help to
reduce both mercury and NOx emissions.
Robert (Rob) Nebergall, Global Business Manager for Emissions Control at Norit
Activated Carbon, will discuss recent developments in the technology of
activated carbon. Utilization of activated carbon for mercury removal continues
to be refined as both manufacturers and customers develop the technology. This
presentation will cover some of the recent developments in technology and what
impact it will have on the markets supply and demand.
Joe Stuart, TDC, LLC a Division of Genesis Energy Limited, will discuss
“Achieving Maximum Mercury Emission Reduction from Your Wet Flue Gas
Desulfurization”. Your wet flue gas desulfurization (FGD) system is likely an
underappreciated piece of an overall cost effective mercury emission reduction
strategy. Having been misdirected by the concept of “mercury re-emission”, the
industry has missed the opportunity to maximize co-absorption of mercury in wet
FGDs. Applying basic engineering concepts to the mercury issue, an operating
point can be found which reliably avoids stripping of elemental mercury
(previously known as “re-emission”), maximizes the ability to absorb elemental
mercury up to the mass-transfer limit of your system, and avoids the costs and
side-effects of excess oxidation of mercury in the inlet gas. Results from
commercial scale trials will be presented.
Paul Barilla, Applications Engineer, and John Darrow, Associate, at W. L. Gore &
Associates, Inc., will co-present for Gore. W.L. Gore & Associates has developed
a unique approach to mercury control based on a sorbent polymer composite (SPC)
material contained within a fixed-structure located in the gas stream. SPC has a
high affinity for absorption and retention of mercury in both elemental and
oxidized states and requires no sorbent or chemical addition, thus avoiding
potential adverse effects on flyash salability and balance-of-plant equipment.
The GMCS is ideally located in a wet FGD absorber vessel downstream of the mist
eliminators, where it also serves as a barrier to scrubber re-emissions. Removal
of SO2 is a co-benefit of the GORE Mercury Control System (GMCS).
To register for the Mercury Measurement and Control – Part 3 on April 18, 2013
at 10:00 a.m. (DST), click on:
http://www.mcilvainecompany.com/brochures/hot_topic_hour_registration.htm.
Headlines for the April 5, 2013 – Utility E-Alert
UTILITY E-ALERT
COAL – US
EPA finalizes Emission Limits for Mercury at New Power Plants
Dominion to Retrofit Dry Scrubber at Brayton Point 3, Retire State Line
TVA to begin FGD, SCR Retrofit at Gallatin
EPA can try to Halt Retrofits, in Some Cases, before Completion
EPA wants Supreme Court to review CSAPR denial
Two Elk 320 MW Coal-fired Power Plant Granted another Delay
NV Energy plans to eliminate Coal-fired Power by 2025
Midwest Generation to Delay SO2 Emissions Controls for Two Years
COAL – WORLD
NTPC to invite Fresh Bids for 1600 MW Darlipalli Power Project in Odisha,
India
L&T wins EPC Contract for Chhabra Power Plant in Rajasthan, India
450 MW Power Plant in Gobi Desert to supply Power to Oyu Tolgoi Copper and
Gold Mine
TRF to deliver Coal Handling System to 1,980 MW Nabinagar in Bihar, India
Poland’s PGE advised to quit 2x900 MW Opole Project
Japanese Panel calls for Easing Rules on Approval of New Coal-fired Power
Plants
India Regulator allows Adani to raise Power Tariffs
Central Java 614 MW Coal-fired Power Plant to be backed by Loan from China
NTPC to shift Odisha Project to Gadarwara in Madhya Pradesh, India
COMBUSTION TECHNOLOGIES/BOILER EFFICIENCY
Enel Selects ABB Control System to Improve Efficiency and Environmental
Performance at Coal-fired Plant in Italy
Jiangsu Huadian Jurong Power chooses Metso’s Automation for its Two 1,000 MW
Units in China
GAS/OIL - US
New Financing Details on 825 MW Moxie Energy Project in Pennsylvania
Siemens and Bechtel to build 758 Temple Natural Gas-fired Power Plant
Expansion
GAS/OIL – WORLD
Jamaica looking at New Power Proposals
NamPower starts Prequalification Process for EPC Contract for Kudu Power
Project in Namibia
200 MW Combined Cycle Power Plant needed in Malta
GASIFICATION
Southern’s Ratcliffe IGCC Power Plant will not seek DOE Loan Help
NUCLEAR
India and Russia signed Agreement for Construction of Kudankulam 3 and 4
Mitsubishi and Areva could build 4,500 MW Sinop in Turkey
South Africa plans for Nuclear Power
BUSINESS
Fuel Tech has Air Pollution Control Orders totaling $4.3 Million
E.ON boost Stake in Brazil’s MPX to 36 Percent; At Least Six Joint Power
Projects Planned
300 MW Shahjibazar Combined Cycle Project approved in Bangladesh
MHI signs FGD License Deal with BHEL
Thousands of Projects Worth Hundreds of $ Billions in Booming Oil and Gas
Industry
Mining Air Pollution Control Purchases to Exceed $2 Billion This Year
Air & Water Pollution Monitoring World Markets Headlines for March 2013
Industrial Boiler Update April 2013
HOT TOPIC HOUR
Industrial Boiler MACT Impact and Control Options – Part 2
“Mercury Measurement and Control – Part 2” is Hot Topic Hour on April 11, 2013
at 10 a.m.
Upcoming Hot Topic Hours
For more information on the Utility Environmental Upgrade 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 Environmental
Upgrade 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
April 18 Mercury Measurement and Control – Part 3 Power
April 25 Control Technologies for Fine Particulate Matter Power
May 2 Flyash Pond and Wastewater Treatment Issues Power
May 9 Clean Coal Technologies Power
May 16 Power Plant Automation and Control 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.
----------
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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