Chang Yu Wu scite author profile

This paper constitutes a review of the control of toxic metal emissions using sorbents. The objective of sorbent-injection methods is to effectively capture the metal species (preferably transform it to an environmentally benign form) and to suppress the fraction in the submicrometer mode. The design of an effective sorbent-injection methodology thus requires an understanding of the fate of the metallic species and its transformation pathways (transfer to the gas phase, subsequent chemistry at high temperatures, and aerosol formation and growth dynamics) in the combustor. Several different sorbent methodologies used for metals capture are discussed, and a mechanistic description is provided. The need for further experimentation and pilot scale testing is also emphasized.

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SCR Atmosphere Induced Reduction of Oxidized Mercury over CuO–CeO₂/TiO₂ Catalyst

et al. 2015

Environ. Sci. Technol.

158

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CuO-CeO2/TiO2 (CuCeTi) catalyst synthesized by a sol-gel method was employed to investigate mercury conversion under a selective catalytic reduction (SCR) atmosphere (NO, NH3 plus O2). Neither NO nor NH3 individually exhibited an inhibitive effect on elemental mercury (Hg(0)) conversion in the presence of O2. However, Hg(0) conversion over the CuCeTi catalyst was greatly inhibited under SCR atmosphere. Systematic experiments were designed to investigate the inconsistency and explore the in-depth mechanisms. The results show that the copresence of NO and NH3 induced reduction of oxidized mercury (Hg(2+), HgO in this study), which offset the effect of catalytic Hg(0) oxidation, and hence resulted in deactivation of Hg(0) conversion. High NO and NH3 concentrations with a NO/NH3 ratio of 1.0 facilitated Hg(2+) reduction and therefore lowered Hg(0) conversion. Hg(2+) reduction over the CuCeTi catalyst was proposed to follow two possible mechanisms: (1) direct reaction, in which NO and NH3 react directly with HgO to form N2 and Hg(0); (2) indirect reaction, in which the SCR reaction consumed active surface oxygen on the CuCeTi catalyst, and reduced species on the CuCeTi catalyst surface such as Cu2O and Ce2O3 robbed oxygen from adjacent HgO. Different from the conventionally considered mechanisms, that is, competitive adsorption responsible for deactivation of Hg(0) conversion, this study reveals that oxidized mercury can transform into Hg(0) under SCR atmosphere. Such knowledge is of fundamental importance in developing efficient and economical mercury control technologies for coal-fired power plants.

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Capture of Mercury in Combustion Systems by In Situ–Generated Titania Particles with UV Irradiation

Wu¹,

Lee²,

Tyree³

et al. 1998

Environmental Engineering Science

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In situ-generated sorbent titania particles with ultraviolet (UV) irradiation have been shown to be effective in capture of mercury in combustor exhausts. Results of experiments conducted with the (1) sorbent precursor only, (2) mercury only, (3) mercury and UV irradiation, and (4) mercury, titania, and UV irradiation are presented to elucidate the mechanisms of the capture process. Capture efficiencies (percentage of Hg captured on the filter) as high as 96% were measured for mercury by titania with UV irradiation. A very high surface area titania sorbent was first formed, with mercury vapors condensing onto this surface, followed by photocatalytic oxidation and binding with the sorbent particles. The process has significant potential as a low-cost methodology for mercury control in practical combustion systems. Minimal retrofitting may be necessary as conventional particulate control devices such as electrostatic precipitators have coronas with UV radiation present.

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Efficient collection of viable virus aerosol through laminar‐flow, water‐based condensational particle growth

et al. 2016

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An equilibrium analysis to determine the speciation of metals in an incinerator

Biswas

1993

Combustion and Flame

116

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Dry particle coating using magnetically assisted impaction coating: modification of surface properties and optimization of system and operating parameters

Ramlakhan¹,

Wu²,

Watano³

et al. 2000

Powder Technology

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Characterization of iron oxide-silica nanocomposites in flames: Part II. Comparison of discrete-sectional model predictions to experimental data

Biswas

Zachariah

et al. 1997

J. Mater. Res.

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A discrete-sectional model accounting for particle formation by chemical reaction and growth by coagulation and condensation is developed to predict the evolution of the nanocomposite aerosol size distribution in a multicomponent iron-silicon system in a flame. Particle formation by nucleation of the vapor is represented by an Arrhenius-type rate expression, with the rate constant being obtained from experiments and simulation results reported in the literature. Precursor vapor concentrations and the second aerosol volume moment predictions are compared to laser-induced fluorescence (LIF) and light scattering intensity measurements from experiments described in Part I20 of the paper. The results elucidate the important formation and growth mechanisms of nanocomposite ferric oxide-silica particles in flame reactors. The role of operating parameters such as precursor characteristics and temperature profiles on the final product characteristics is established.

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PAHs, carbonyls, VOCs and PM2.5 emission factors for pre-harvest burning of Florida sugarcane

Hall

Hsu

et al. 2012

Atmospheric Environment

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Chang Yu Wu

Control of Toxic Metal Emissions from Combustors Using Sorbents: A Review

SCR Atmosphere Induced Reduction of Oxidized Mercury over CuO–CeO₂/TiO₂ Catalyst

Capture of Mercury in Combustion Systems by In Situ–Generated Titania Particles with UV Irradiation

Efficient collection of viable virus aerosol through laminar‐flow, water‐based condensational particle growth

An equilibrium analysis to determine the speciation of metals in an incinerator

Dry particle coating using magnetically assisted impaction coating: modification of surface properties and optimization of system and operating parameters

Characterization of iron oxide-silica nanocomposites in flames: Part II. Comparison of discrete-sectional model predictions to experimental data

PAHs, carbonyls, VOCs and PM2.5 emission factors for pre-harvest burning of Florida sugarcane

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Chang Yu Wu

Control of Toxic Metal Emissions from Combustors Using Sorbents: A Review

SCR Atmosphere Induced Reduction of Oxidized Mercury over CuO–CeO2/TiO2 Catalyst

Capture of Mercury in Combustion Systems by In Situ–Generated Titania Particles with UV Irradiation

Efficient collection of viable virus aerosol through laminar‐flow, water‐based condensational particle growth

An equilibrium analysis to determine the speciation of metals in an incinerator

Dry particle coating using magnetically assisted impaction coating: modification of surface properties and optimization of system and operating parameters

Characterization of iron oxide-silica nanocomposites in flames: Part II. Comparison of discrete-sectional model predictions to experimental data

PAHs, carbonyls, VOCs and PM2.5 emission factors for pre-harvest burning of Florida sugarcane

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Product

Resources

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SCR Atmosphere Induced Reduction of Oxidized Mercury over CuO–CeO₂/TiO₂ Catalyst