1. Wear Properties of Ash Minerals in Biomass
- Author
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John E. Aston, Vicki S. Thompson, and Jeffrey A. Lacey
- Subjects
inorganic chemicals ,0106 biological sciences ,Economics and Econometrics ,Irrigation ,Abrasion (mechanical) ,020209 energy ,equipment wear ,Energy Engineering and Power Technology ,Biomass ,lcsh:A ,02 engineering and technology ,engineering.material ,01 natural sciences ,complex mixtures ,010608 biotechnology ,0202 electrical engineering, electronic engineering, information engineering ,introduced ash ,Renewable Energy, Sustainability and the Environment ,technology, industry, and agriculture ,food and beverages ,respiratory system ,Soil type ,Pulp and paper industry ,Biorefinery ,musculoskeletal system ,Fuel Technology ,biomass abrasion ,biogenic ash ,ash minerals ,engineering ,Environmental science ,Fertilizer ,lcsh:General Works ,Weather patterns - Abstract
Ash in biomass is believed to damage biorefinery equipment due to its abrasive properties, and is undesirable in thermal and biological conversion reactions as it cannot be converted into fuels, can catalyze undesirable side reactions, and poisons catalysts. All biomass contains at least some ash, or inorganic content, as a result of normal physiological processes. The concentration of biogenic ash in biomass is largely species dependent; however it can also be affected by weather patterns, irrigation, soil type, and fertilizer applications. Ash concentrations in harvested biomass can also be elevated due to the incorporation of soil and dust during the harvest and collection processes. While ash concentration in biomass is important, so also is the mineral form of the ash. Certain mineral forms of ash can be much harder than the steels used to construct biorefinery equipment and cause excessive wear. In this perspective, the relative concentrations of ash elements, mineral forms of ash, and the hardness of these minerals are considered to identify ash components of concern to biorefinery operators. Strategies are suggested to remove ash from harvested biomass to reduce the risk of excessive wear on biomass processing equipment.
- Published
- 2018
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