Ash Melting Behavior of Rice Straw and Calcium Additives

Rice straw is potentially an appropriate feedstock material for biofuel production, since a huge amount of this postharvest residue is generated every year. The transformation of such agricultural biomass into densified products with a higher energy value and their subsequent combustion is associated with several questions. One of them is that rice straw exhibits a large formation of ash during combustion; thus, it is essential to know the nature of its ash melting behavior. Generally, during the combustion of straw biomass, ash sintering occurs in relatively low temperatures, resulting in the damaging of heating equipment. This negative aspect can be overcome by the addition of calcium-based additives. This paper aimed to study the ash melting behavior at a laboratory scale and to determine the ash melting points of rice straw mixed with calcium carbonate (CaCO3) and calcium hydroxide (Ca(OH)2) in different proportional ratios. The standardly produced ash samples from the rice straw obtained from Cambodia were constantly heated up in a muffle furnace, and characteristic temperatures of ash melting, i.e., shrinkage, deformation, hemisphere, and flow temperature, were recorded. The results showed that increasing the additive ratio did not bring linear growth of the melting temperatures. The addition of 1% CaCO3 showed an optimal positive impact of higher ash melting temperatures, and thus a better ability to abate the sintering of the rice straw ash.

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Torrefaction of Agricultural and Wood Waste: Comparative Analysis of Selected Fuel Characteristics

Energies ◽

10.3390/en14102774 ◽

2021 ◽

Vol 14 (10) ◽

pp. 2774

Author(s):

Margareta Novian Cahyanti ◽

Tharaka Rama Krishna C. Doddapaneni ◽

Marten Madissoo ◽

Linnar Pärn ◽

Indrek Virro ◽

...

Keyword(s):

Energy Source ◽

Lignin Content ◽

Melting Behavior ◽

Cellulose Content ◽

Biomass Ash ◽

Energy Applications ◽

Torrefied Biomass ◽

Ash Melting ◽

Fuel Characteristics ◽

Ash Melting Behavior

Abundant biomass is a potential energy source. However, it possesses several challenges when considered for energy applications. Torrefaction, a thermal pretreatment process can improve the properties of biomass as energy source. This study focused on comparing effect of torrefaction operating parameters on agricultural and wood wastes properties as fuel. The physiochemical properties, composition, moisture-biomass interaction and ash melting behavior were determined. The result show that higher torrefaction temperature and longer residence time increased lignin content, reduced hemicellulose and cellulose content. The moisture uptake of torrefied biomass was reduced in the range 2.47–9.94% compared with raw biomass depending on torrefaction temperature that indicate torrefied biomass was more hydrophobic than raw biomass. The moisture adsorption isotherm curve shows type II isotherm based on the Brunauer-Emmett-Teller’s (BET) classification and was best described by the Oswin model. In addition, torrefaction treatment showed significant influence on the melting behavior of the biomass ash. Especially for agricultural wastes, the fouling tendency shifted from serious range to low range with torrefaction treatment. Torrefaction showed promise for improving fuel characteristics of the studied biomass.

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Characterization of Vinasse for Thermochemical Conversion—Fuel Fractionation, Release of Inorganics, and Ash-Melting Behavior

Energy & Fuels ◽

10.1021/acs.energyfuels.8b04177 ◽

2019 ◽

Vol 33 (7) ◽

pp. 5840-5848 ◽

Cited By ~ 2

Author(s):

Meheretu Jaleta Dirbeba ◽

Anders Brink ◽

Maria Zevenhoven ◽

Nikolai DeMartini ◽

Daniel Lindberg ◽

...

Keyword(s):

Melting Behavior ◽

Thermochemical Conversion ◽

Ash Melting ◽

Ash Melting Behavior

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The Effect of Calcium-Bearing Mineral on Ash Melting Behavior During Zhundong Coal Combustion

Volume 1: Boilers and Heat Recovery Steam Generator; Combustion Turbines; Energy Water Sustainability; Fuels, Combustion and Material Handling; Heat Exchangers, Condensers, Cooling Systems, and Balance-of-Plant ◽

10.1115/power-icope2017-3221 ◽

2017 ◽

Author(s):

Ma Haidong ◽

Wang Yungang ◽

Zhao Qinxin

Keyword(s):

Calcium Oxide ◽

Coal Combustion ◽

Coal Ash ◽

Melting Behavior ◽

Sintering Behavior ◽

Efficient Operation ◽

Transition Mechanism ◽

Ash Melting ◽

Zhundong Coal ◽

Ash Melting Behavior

Two typical pulverized Zhundong coal with different calcium oxide contents in ash were selected to use in this work. The liquid nitrogen was used to cool ash rapidly at different temperatures, in order to avoid changes in mineral condition. The ash melting behavior and mineral transition mechanism, especially calcium-bearing minerals was studied by ash melting point test platform, XRD, XRF, SEM and EDS. The results showed that the different states of calcium are the dominant reasons for different sintering behaviors of coal ash. The calcium-bearing minerals in ash, such as calcium oxide (CaO), calcium silicate (CaSiO3), gehlenite (2CaO·Al2O3·SiO2), and anorthite (CaO·Al2O3·2SiO2), etc., are the most important factors influencing the initial sintering behavior of coal ash in the temperature range from 1373K to 1473K under oxidizing atmosphere during coal combustion. That is the reason why ash starts to melt at relatively high temperature during ash melting behavior in laboratory, but has severe slagging and contamination characteristic at low temperature during coal combustion in boilers. The research achievments have important guiding significance for the design of partially or completely burning Zhundong coal boiler as well as its long-term safe and efficient operation. (CSPE)

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