Journal ArticleDOI
Utilizing biomass and waste for power production—a decade of contributing to the understanding, interpretation and analysis of deposits and corrosion products
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TLDR
In this article, the authors provide an overview of the experience gained on ash, deposit and corrosion formation in thermal fuel conversion systems fired with solid non-fossil fuels, and focus attention on how these results fit into our current understanding of this subject.About:
This article is published in Fuel.The article was published on 2005-07-01. It has received 226 citations till now. The article focuses on the topics: Municipal solid waste & Incineration.read more
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Biomass combustion in fluidized bed boilers: Potential problems and remedies
TL;DR: In this article, the authors present the major issues concerned with biomass combustion with special reference to the small scale fluidized bed systems (small to pilot scale). Problems have been identified, mechanisms explained and solutions have been indicated.
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Grate-firing of biomass for heat and power production
TL;DR: A review of the state-of-the-art knowledge on grate-fired boilers burning biomass can be found in this article, where the key elements in the firing system and the development, the important combustion mechanism, the recent breakthrough in the technology, the most pressing issues, the current research and development activities, and the critical future problems to be resolved.
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An overview of the composition and application of biomass ash.
TL;DR: In this article, an extended overview of the complex phase-mineral and chemical composition and properties of biomass ash (BA) was conducted in Part 1 of the present work and the potential application of BA using the above classification approach is described in the present Part 2.
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An overview of the behaviour of biomass during combustion: Part I. Phase-mineral transformations of organic and inorganic matter
TL;DR: An extended overview of phase-mineral transformations of organic and inorganic matter that occur during biomass combustion was conducted in this article, where it was demonstrated that the phase composition of BA is polycomponent, heterogeneous and variable and includes: (1) mostly inorganic material (IM) composed of non-crystalline (amorphous) and crystalline to semiscale constituents; (2) subordinately organic matter (OM) consisting of char and organic minerals; and (3) some fluid matter associated with both IM and OM.
References
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Book
Sintering theory and practice
TL;DR: Sintering Measurement Techniques Solid-State Sintering Fundamentals as discussed by the authors Microstructure and Processing Relations in Solid-state Sinterings, Mixed Powders, Pressure-Assisted SinterING.
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The implications of chlorine-associated corrosion on the operation of biomass-fired boilers
TL;DR: In this paper, the potential corrosion problems associated with burning biomass fuels either alone or in blends with coal, for electricity production are discussed, and the most severe corrosion problems in biomass-fired systems are expected to occur due to Cl-rich deposits formed on superheater tubes.
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The behavior of inorganic material in biomass-fired power boilers: Field and laboratory experiences
Larry L. Baxter,T. R. Miles,Bryan M. Jenkins,Thomas A. Milne,David C. Dayton,R. W. Bryers,Larry L. Oden +6 more
TL;DR: Alkali Deposits Investigation (ADI) as mentioned in this paper was a collaborative effort to understand the causes of unmanageable ash deposits in biomass-fired electric power boilers.
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Aerosol particle deposition in numerically simulated channel flow
TL;DR: In this paper, the trajectories of rigid spherical particles in a turbulent channel flow are computed using a pseudospectral computer program to simulate the three-dimensional, time-dependent flow field.
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Particle behavior in the turbulent boundary layer. I. Motion, deposition, and entrainment
TL;DR: In this article, the motion of solid particles near the wall in a turbulent boundary layer was investigated experimentally in a water flume by flow visualization techniques and by LDA, and the results showed that particle motion, as well as entrainment and deposition processes, are controlled by the action of coherent wall structures, which appear to be funnel vortices.