Abstract
Some types of biomass ash have low ash melting temperature which can result in various problems in combustion processes. Ash slags and sinters can avoid heat transfer in heat exchangers, which can also cause corrosion of heat transfer surfaces. One of the ways of burning fuels with low ash melting temperature is to use additives. Ash melting temperature can be determined in a laboratory on the basis of standard STN ISO 540. Meltability of ash is characterized by the physical state of ash occurring during the heating process under well-defined conditions in the furnace. Experimental determination of ash melting temperature is quite expensive. In this work a prediction method of ash melting temperature is described. The mathematical model uses multiple linear regression where input parameters are the known chemical composition of fuel ash and used additive converted to an amount of SiO2, CaO, K2O, MgO and Al2O3. The mathematical model is relatively accurate with real ash melting temperatures and reaches accuracy about of 90 % compared with ash melting temperatures obtained by STN ISO 540 method in a laboratory.
Highlights
Biomass is continuously gaining interest as a sustainable energy resource that is available in many forms and can be obtained from different sources [1]
The use of additives can be a highly interesting and effective way how to solve problems arising from combustion of biofuels with low ash melting temperature
Based on the above mentioned results we can argue that the addition of dolomite and kaolin increased most significantly the AMT of tested biofuels
Summary
Biomass is continuously gaining interest as a sustainable energy resource that is available in many forms and can be obtained from different sources [1]. Utilization of bioenergy can be expanded to meet the increasing energy demands, reduce the carbon dioxide emissions and global warming, with the benefit of urban and rural wastes disposal [2]. Biomass combustion still remains the dominant technology for heat and power production [3]. The use of biomass may be connected with problems and limitations. One of these is ash from biofuel which may cause various problems during combustion processes in heating devices [4].
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