Modeling of physical and mechanical properties of raw materials for the production of fuel briquettes

Vlasov, Yu.N.; Grigorjev, I.V.; Kunitskaya, O.; Khitrov, Egor; Runova, Elena

doi:10.18324/2077-5415-2020-2-40-46

Cited by 4 publications

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Energy-Resource-Saving Technologies of Power Supply of Forest Terminals

Kunitskaya

Стородубцева

Pomiguev³

2022

Proceedings of the All-Russian Scientific and Technical Conference "Environmental and Resource-Saving Technologies in Science A

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. The constant growth of the average distance of removal of harvested wood is noted by all timber companies in Russia. The situation with this issue is particularly difficult in Siberia and the Far East. To reduce the transport component of the cost of harvested wood in Siberia and the Far East, wood processing technologies are increasingly being used on mobile lines of forest terminals (non-permanent timber warehouses). This makes it possible to increase the coefficient of full-wood carts, optimize the logistics of delivering the finished products and semi-finished products to the consumer, bypassing unnecessary transshipment points.

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Energy-Resource-Saving Technologies of Power Supply of Forest Terminals

Kunitskaya

Стородубцева

Pomiguev³

2022

Proceedings of the All-Russian Scientific and Technical Conference "Environmental and Resource-Saving Technologies in Science A

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Results of Experimental Briquetting of Logging Waste in the Conditions of Forest Terminals

Kunitskaya

Pomiguev²,

Burmistrova³

et al. 2021

Forestry Engineering Journal

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About 100 million m3 of timber waste is generated at forest terminals in the Russian Federation, with a harvesting volume of about 500 million m3 of timber. Waste generated at the terminal can be used to produce generator gas, but this requires preliminary preparation of the raw materials. A homogeneous structure of raw materials is recommended for the efficient use of gas generating plants. It can be achieved, for example, by briquetting the waste after it has been crushed. At the same time, the process of briquetting waste at forest terminals will differ from briquetting in the conditions of specialized enterprises. Timber terminals, which are temporary warehouses for timber, usually do not have a centralized electricity connection. The use of internal combustion engines as power plants significantly increases the cost of the woodworking process, since the cost of fuel is quite high, and the efficiency of internal combustion engines is much lower than that of electric motors. In this regard, the search for the most optimal mobile power plants for power supply of forest terminals is a very urgent task. It is preferable to use lighter presses at terminals, since the requirements for density and strength of briquettes for gas-fired plants are lower than for biofuels intended for sale. Known studies are focused mainly on the production of fuel briquettes sold to third-party consumers with a density of more than 1000 kg/m3. The strength is sufficient at a density of briquettes up to 800 kg/m3 for feeding briquettes into gas generating plants. The deformation characteristics of the compacted material will be different in the indicated density range. It requires further experimental studies

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Analytical modeling of the biomass briquetting process in a closed channel

Yeremenko¹,

Subota²

2021

M&EAgri

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Annotation Purpose. Increasing the efficiency of biomass briquetting by developing, at the first stage, a graphic-analytical model of a shock-mechanical press with a closed matrix channel. Methods. Graphic-analytical modeling of impact pressing of biomass into briquettes in a closed channel of the matrix; linearization, according to which a non-linear function is replaced by a linear function; mathematical modeling, assumes the dependence of the degree of compaction of biomass on the magnitude of the shock load (impulse) and reveals the nonlinear nature of the resistance of biomass to shocks and deformations. Results. On the basis of the analysis, the main factors of the course of the biomass briquetting process in the closed matrix channel of the stamp press have been determined. The physical essence of obtaining briquettes from dispersed biomass is described. The developed graph-analytical model of biomass briquetting in the closed matrix of a stamp press is substantiated. The application of the method of linearization helps to simplify the mathematical model on the criterion of adequacy in relation to the real conditions of the process. Conclusions The developed graphic-analytical model of the process of briquetting of plant biomass in the closed matrix channel of the stamp press allows to find out in abstract form the physical essence of this complex phenomenon. According to the results of analytical modeling of the process of biomass compaction in the base with elastic properties it is established that the density of the briquette increases monotonically, asymptotically approaching the plastic state of the monolithic product. The application of the method of linearization of the nonlinear function F(y_1^((1) ) ) simplifies the analysis of the model on the length of the matrix channel in the interval (0; l_1 ), and the coefficient of linearization of the biomass resistance force is the basis of the mathematical model closed channel after each i-th blow. Keywords: briquette press, biomass, briquettes, shock method, stamp, closed channel, matrix, modeling, linearization.

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Modeling of physical and mechanical properties of raw materials for the production of fuel briquettes

Cited by 4 publications

References 0 publications

Energy-Resource-Saving Technologies of Power Supply of Forest Terminals

Energy-Resource-Saving Technologies of Power Supply of Forest Terminals

Results of Experimental Briquetting of Logging Waste in the Conditions of Forest Terminals

Analytical modeling of the biomass briquetting process in a closed channel

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