| 423 - 424 |
Air quality III: mercury, trace elements, and particulate matter
Benson SA |
| 425 - 440 |
An overview of air quality III: mercury, trace elements, and particulate matter
Sondreal EA, Benson SA, Pavlish JH, Ralston NV |
| 441 - 450 |
Modeling the atmospheric fate and transport of mercury over North America: power plant emission scenarios
Seigneur C, Vijayaraghavan K, Lohman K, Karamchandani P, Scott C |
| 451 - 462 |
Artificial neural network-based estimation of mercury speciation in combustion flue gases
Jensen RR, Karki S, Salehfar H |
| 463 - 472 |
Kinetic transformation of mercury in coal combustion flue gas in a bench-scale entrained-flow reactor
Zhuang Y, Zygarlicke CJ, Galbreath KC, Thompson JS, Holmes MJ, Pavlish JH |
| 473 - 485 |
Zeeman atomic absorption spectrometer RA-915+for direct determination of mercury in air and complex matrix samples
Sholupov S, Pogarev S, Ryzhov V, Mashyanov N, Stroganov A |
| 487 - 499 |
Mercury emissions from a 100-MW wall-fired boiler as measured by semicontinuous mercury monitor and Ontario Hydro Method
Kellie S, Duan YF, Cao Y, Chu P, Mehta A, Carty R, Liu KL, Pan WP, Riley JT |
| 501 - 511 |
Use of continuous mercury monitors at coal-fired utilities
Laudal DL, Thompson JS, Pavlish JH, Brickett LA, Chu P |
| 513 - 519 |
Detection of mercury at the ppb level in solution using boron-doped diamond electrode
Manivannan A, Seehra MS, Fujishima A |
| 521 - 531 |
Thermal pretreatment of low-ranked coal for control of mercury emissions
Guffey FD, Bland AE |
| 533 - 548 |
Recent advances in mercury removal technology at the National Energy Technology Laboratory
O'Dowd WJ, Hargis RA, Granite EJ, Pennline HW |
| 549 - 562 |
Full-scale evaluation of sorbent injection for mercury control on coal-fired power plants
Bustard J, Durham M, Starns T, Lindsey C, Martin C, Schlager R, Baldrey K |
| 563 - 576 |
Application of sorbents for mercury control for utilities burning lignite coal
Pavlish JH, Holmes MJ, Benson SA, Crocker CR, Galbreath KC |
| 577 - 585 |
X-ray photoelectron spectroscopy analysis of mercury sorbent surface chemistry
Laumb JD, Benson SA, Olson EA |
| 587 - 600 |
Demonstration of additive use for enhanced mercury emissions control in wet FGD systems
Nolan PS, Redinger KE, Amrhein GT, Kudlac GA |
| 601 - 612 |
Characterization of fly ash from full-scale demonstration of sorbent injection for mercury control on coal-fired power plants
Senior C, Bustard CJ, Durham B, Baldrey K, Michaud D |
| 613 - 620 |
Potential for mercury vapor release from coal combustion by-products
Hassett DJ, Heebink LV, Pflughoeft-Hassett DF |
| 621 - 630 |
Development of novel sorbents for mercury control at elevated temperatures in coal-derived syngas: results of initial screening of candidate materials
Portzer JW, Albritton JR, Allen CC, Gupta RP |
| 631 - 639 |
Estimates of PM2.5 levels in the southeastern United States for the year 2010: What else can be done?
Odman MT, Russell AG, Boylan JW |
| 641 - 656 |
The emissions and environmental impact of PM10 and trace elements from a modern coal-fired power plant equipped with ESP and wet FGD
Meij R, Winkel HT |
| 657 - 671 |
Trace elements and common ions in southeastern Idaho snow: regional air pollutant tracers for source area emissions
Abbott M, Einerson J, Schuster P, Susong D, Taylor HE |
| 673 - 686 |
Fine particle formation from co-combustion of sewage sludge and bituminous coal
Wolski N, Maier J, Hein KRG |
| 687 - 699 |
Important aspects in source PM2.5 emissions measurement and characterization from stationary combustion systems
Lee SW, He I, Young B |
| 701 - 726 |
Formation and chemical speciation of arsenic-, chromium-, and nickel-bearing coal combustion PM2.5
Galbreath KC, Zygarlicke CJ |
| 727 - 742 |
Evaluation of soot particulate mitigation additives in a T63 engine
Corporan E, DeWitt M, Wagner M |
| 743 - 761 |
Investigation of primary fine particulate matter from coal combustion by computer-controlled scanning electron microscopy
Chen YZ, Shah N, Huggins FE, Huffman GP, Linak WP, Miller CA |
| 763 - 779 |
Measurement of fine particulate matter using electron microscopy techniques
Casuccio GS, Schlaegle SF, Lersch TL, Huffman GP, Chen YZ, Shah N |
| 781 - 798 |
Membrane-based wet electrostatic precipitation
Bayless DJ, Alam MK, Radcliff R, Caine J |
