BUILDING A MATHEMATICAL MODEL OF THE BIOGAS COMBUSTION PROCESS
DOI:
https://doi.org/10.26577/JPCSIT.2023.v1.i1.02Keywords:
Biomass and biodegradable waste, Control object, Internal combustion engine, Efficiency factor - efficiency factor, Circulating fluidized bed, Analog-digital converter, Biomass and biodegradable fuels, ATS - Automatic Control System, TP - Technological ProcessAbstract
During the experimental work thermodynamic methods of measuring the flow of water vapor and hydrogen-oxygen mixture on the basis of differential pressure gauges, methods of contact and non-contact temperature measurement in the superheated, permeable layer of biomass, tried and tested standard methods of synthesis gas analysis using chromatograph and flow gas analyzer were used. Proven mathematical models and proven reliable methods were used in mathematical modeling. Research methods include experimental studies to establish the effect of temperature conditions of gasification, properties of feedstock on the qualitative composition and quantitative yield of synthesis gas; modeling process of carbon-bearing substances gasification with the solution of the resulting model by iteration-interpolation method.
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