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Power-Gen 2010 Orlando

This exhibition conference was held December 14 - 16, 2010 in Orlando, FL. McIlvaine has posted over 70 pictures of stands and people.

Revision Date:  12/14/2010

Tags:  221112 - Fossil Fuel 化石燃料, Victaulic, BWE Energy, Peerless Manufacturing, Howden North America, Nalco Mobotec, Pall Life Sciences, FD Services, Bachmann Dampjoint, Dongwoo Optron, Hilliard, Braden Manufacturing, Metso Power, Norit Americas, China Guodian, Effox-Flextor, Energy Products of Idaho, Outokumpu, Valve Manufacturers Association of America, Ceram Environmental, KE Burgmann, Air Liquide, Tsurumi Pump, DSI, ABZ Valve, P.B.V., Colfax, Dustex, Vaas Industries, Stanadyne, Cameron International, Philadelphia Mixing Solutions, Cat Pumps, ECOM America, DFT, McGill AirClean, Corken, Torishima, NWL Transformers, Callidus Technologies, Augusta Fiberglass, ITW Futura Coatings, Babcock & Wilcox Power Generation Group, Hamon Research-Cottrell, Donaldson Filtration Solutions, Synagro Technologies, Sandvik, Paragon Airheater Technologies, Siemens Energy, Aquatech, Hyunwoo Industrial, BTX, HKC, Roberts & Schaefer, Blome International, Nol-Tec Systems, Wahlco, WFI International, Graver Technologies, Calera, BWF America, Swan Analytical Instruments, Teledyne, CoaLogix, Thermo Fisher, Emerson Process Management, WahlcoMetroflex, Weir Power & Industrial, Haldor Topsoe, Exhibition, USA


Siemens Energy, Inc. at Power-Gen 2010 stand pictures plus previous years info

 

Revision Date:  12/14/2010

Tags:  221112 - Fossil Fuel 化石燃料, Siemens Energy, Exhibition, USA


Electric Power Conference, Chicago, Illinois, May 10-12, 2011 / Exhibitors

A number of air pollution system and coal fired boiler component suppliers, as well as some water oriented companies, will be exhibiting.

Revision Date:  3/9/2011

Tags:  221112 - Fossil Fuel 化石燃料, NeuCo, Metso, NWL Transformers, Nalco Mobotec, Milton Roy, Layne Christensen, KSB, Oak Park Chimney, KE Burgmann, Siemens Energy, Johnson Matthey, Horn Industrial Services, Kiewit Power Engineers, Paragon Airheater Technologies, Pennsylvania Crusher, Praxair, Roberts & Schaefer, CoaLogix, SOLVAir Solutions, SPX Flow Technology, Zachry, Veolia ES / Special Services, Swan Analytical Instruments, Hitachi Power Systems America, Hadek, Curtiss-Wright, International Chimney, Ovivo USA, Whiting Corporation, Vector Construction, Pentair Flow Technologies, Titan Fabrication, Sulzer Turbo Services, Pullman Energy Services, Nickel Systems, National Steel Erection, Air - Cure, Masaba Mining Equipment, National Steel City, Heyl & Patterson, FMC Corporation, East Jordan Iron Works, Degremont Technologies, Day & Zimmermann, Cambria Contracting, Burns & McDonnell, BRUKS Rockwood, Babcock & Wilcox, Grindex Pumps, Clyde Bergemann, Allied Environmental Solutions, Fujikin, Fuel Tech, FLSmidth, Everlasting Valve, Endress + Hauser, Eaton, DustMASTER Enviro Systems, Dustex, Donaldson, Graycor, Infilco Degremont, GE Energy, Chemco Systems, Calgon Carbon, Blome International, Barnhart Crane & Rigging, Apollo Valves, Atlas Copco, USA


Dominion, Chesterfield 6 - Wet FGD Systems Operation in a low ash environment - Electric Power May 10 - 12, 2011, Chicago, Illinois by Aydra Kalynchuk, Applications Engineer, Siemens Energy, Inc.

An air pollution control system was installed at Dominion Generation’s Chesterfiled Plant in April 2008. The air pollution control system includes limestone injection, fabric filter, and a single absorber module to control emissions from the Chesterfiled plant’s number 6 boiler unit. The unit burns medium to high sulfur eastern bituminous coal. For sites such as this, a dry electrostatic precipitator has typically been used to control particulate emission. Recently, however, fabric filters have been installed at several installations to control particulate emissions under these conditions. With this type of emission control arrangement, ash loadings to the FGD are generally much lower than a typical dry ESP / Wet FGD arrangement. The are several advantages of operating a Wet FGD system with low ash loadings. Under this operating scenario, equilibrium inert / ash concentrations of the scrubber will remain quite low (usually under wt 2%) and absorber solids concentrations is mostly gypsum. Low concentrations of ash minimizes the potentialal of Wet FGD chemistry issues, such as aluminum fluoride blinding. Chemical analysis of the absorber slurries that are equipped with Fabric Filters upstream indicates lower concentrations of some dissolved metals, such as Selenium that is an important regulatory species. The low ash content of the FGD also results in very low gypsum moistures values (5% - 8%) to while operating with a typical hydroclone, vacuum filter system. Additionally, equipment wear is lessened as highly abrasive ash particles are not present in high quantities. SESS will present photos of absorber equipment from the most recent outage (September) 2010 at Chesterfield 6.

Revision Date:  5/11/2011

Tags:  221112 - Fossil Fuel 化石燃料, Siemens Energy, FGD, Fabric Filter, Air Quality, USA


Case Studies for Exploring Optimization of Wet FGD / Waste Water Treatment Systems for Utility Applications - Electric Power May 10-12, 2011 by Michelle Dougherty, WFGD Product Manager, Siemens

Wet flue gas desulfurization (WFGD) Systems and the associated wastewater treatment (WWT) plants are typically designed separately with little or no direct communication of design conditions between vendors. In the current economic climate the emphasis on cost reductions thru improved design conditions and innovative design approaches is essential. The basic design factors for the purge stream are the volumetric rates of the purge stream, the chlorides concentration, and the weight percent solids. These factors have significant impacts to the costs of both the WFGD system and the downstream WWT system. The optimization of these design factors will minimize the overall design costs of project. This paper will examine the process and cost impacts of designs from five projects that have both a Siemens WFGD and a Siemens WWT system and provide design recommendations for future systems.

Revision Date:  5/12/2011

Tags:  221112 - Fossil Fuel 化石燃料, Siemens Energy, FGD, Air Quality, USA


Industrial Boiler MACT Impact and Control Options - Part 2 Webinar - Hot Topic Hour April 4, 2013

Final Boiler MACT Rule.

Revision Date:  4/4/2013

Tags:  221112 - Fossil Fuel 化石燃料, A.H. Lundberg Associates, Siemens Energy, Wet Electrostatic Precipitator, MACT, Industrial Boiler


Comparison of Wet and Dry ESP Technologies by James "Buzz" Reynolds, Siemens Energy - Hot Topic Hour November 21, 2013

 

Revision Date:  11/21/2013

Tags:  221112 - Fossil Fuel 化石燃料, Siemens Energy, Dry ESP, Wet Electrostatic Precipitator


Wet vs. Dry ESP Webinar - Hot Topic Hour November 21, 2013

 

Revision Date:  11/21/2013

Tags:  221112 - Fossil Fuel 化石燃料, A.H. Lundberg Associates, Pollution Control Services, Siemens Energy, Dry ESP, Wet Electrostatic Precipitator, Maintenance