Journal ArticleDOI
Mechanistic Model for Ash Deposit Formation in Biomass Suspension Firing. Part 1: Model Verification by Use of Entrained Flow Reactor Experiments
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In this article, two models for deposit formation in suspension firing of biomass have been developed: model #1 employs a reference viscosity in the description of the sticking probability, while model #2 combines impaction of viscoelastic particles on a solid surface with particle capture by a viscous surface.Abstract:
Two models for deposit formation in suspension firing of biomass have been developed. Both models describe deposit buildup by diffusion and subsequent condensation of vapors, thermophoresis of aerosols, convective diffusion of small particles, impaction of large particles, and reaction. The models differ in the description of the sticking probability of impacted particles: model #1 employs a reference viscosity in the description of the sticking probability, while model #2 combines impaction of viscoelastic particles on a solid surface with particle capture by a viscous surface. Both models were used to describe the deposit formation rates and deposit chemistry observed in a series of entrained flow reactor (EFR) experiments using straw and wood as fuels. It was found that model #1 was not able to describe the observed influence of temperature on the deposit buildup rates, predicting a much stronger influence of this parameter. Model #2 was able to provide a reasonable description of the influence of temp...read more
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Modeling of ash formation and deposition processes in coal and biomass fired boilers: A comprehensive review
Yongtie Cai,Kun Lin Tay,Zhimin Zheng,Wenming Yang,Hui Wang,Guang Zeng,Zhiwang Li,Siah Keng Boon,Prabakaran Subbaiah +8 more
TL;DR: In this article, a comprehensive review on the development of the modelling of ash deposition with particle combustion, sticking, rebound and removal behaviors is presented, including the modeling of ash deposit morphomology.
Journal ArticleDOI
Distribution of temperature, H2O and atomic potassium during entrained flow biomass combustion : Coupling in situ TDLAS with modeling approaches and ash chemistry
Zhechao Qu,Per Holmgren,Nils Skoglund,Nils Skoglund,David R. Wagner,Markus Broström,Florian M. Schmidt +6 more
TL;DR: Tunable diode laser absorption spectroscopy (TDLAS) is employed for simultaneous detection of gas temperature, water vapor (H2O) and gas-phase atomic potassium, K(g), in an atmospheric, research-sc... as mentioned in this paper.
Journal ArticleDOI
Fly Ash Formation during Suspension Firing of Biomass: Effects of Residence Time and Fuel Type
TL;DR: In this article, the formation of residual fly ash during the initial stages of suspension firing of biomass was studied in an entrained flow reactor at 1200-1400 °C, simulating full-scale suspension firing.
Journal ArticleDOI
The use of equilibrium thermodynamic models for the prediction of inorganic phase changes in the co-firing of wheat straw with El Cerrejon coal
P. Xing,L.I. Darvell,Julian R. Jones,Lin Ma,Mohamed Pourkashanian,János Szuhánszki,Alan Williams +6 more
TL;DR: In this paper, a comparison of ash behavior for coal (El Cerrejon) and wheat straw blends studied by ash fusion test, X-ray diffraction (XRD) and by using predictive software (FactSage) was made.
Journal ArticleDOI
Biomass Fly Ash Deposition in an Entrained Flow Reactor
TL;DR: In this paper, fly ash deposition on boiler surfaces is investigated in a lab-scale Entrained Flow Reactor, and a mechanistic model was developed for predicting deposit formation in the reactor, and the sticking probability of the ash particles was estimated by accounting for energy dissipation due to particle deformation.
References
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Ash deposition during biomass and coal combustion: A mechanistic approach
TL;DR: In this article, a mechanistic approach to describing the fate of inorganic material in solid fuels with a particular focus on the mechanisms of ash deposition is presented. But this approach has the potential of embracing a large range of fuel variations, combustor types, and operating conditions without the need of developing extensive databases or testing procedures for each new situation.