Model of moisture movement in field dressing of peat in the large spreading
About authors
- 1 — Ph.D. associate professor National Mineral Resources University (Mining University)
- 2 — Ph.D. associate lecturer National Mineral Resources University (Mining University)
Abstract
The possibility of using the model equilibrium disturbed peat system to assess the effectiveness of gravitational drainage of the peat material hill without evaporation from the surface, depending on the height of the critical thickness, flow rate and the amount of moisture in the layer after deposition.
Область исследования:
(Archived) Manufacturing machinery and equipment
References
- Afanasiev E.A. The influence of structure on the density of the liquid colloidal capillary-porous bodies / A.E. Afanasiev, A.S. Efremov // TOHTI, 2011. Vol.46. N 1.
- Afanasiev E.A. Theoretical estimation of the coefficients of hydraulic conductivity of peat deposits impaired structure / A.E. Afanasev, E.A. Kremcheev, A.S.Efremov // GIAB, topical application «Hydromechanization». 2012. Iss.6.
- Bazin E.T. The impact of technological and physical-chemical effects on per meable-bridge structure and peat / E.T. Bazin, V.I. Kosov, S.V. Minyaev // Peat industry, 1981. N 7.
- Kremcheev E.A. Evaluating the effectiveness of gravity drainage materials for year-round comprehensive mechanization of peat / E.A. Kremcheev, A.E. Afanasev // GIAB, 2012. N 4.
- Technical analysis of peat / E.T. Bazin, V.D. Kopenkin, V.I. Kosov. Moscow, 1992.
Similar articles
Methodics of calculation of required amount of cars in reduced interval delivery times
2014 T. A. Menukhova
The task of detection the optimal scheme of transport kinds’ coordination into logistic transport system with taking into account input limits
2014 O. D. Zaitseva, B. D. Prudovskiy
Residual life assessment gears coarse-grained open transfer of mining machines based on the local changes of their surface hardness
2014 I. E. Zvonarev, S. L. Ivanov, A. S. Fokin, D. A. Shibanov
Technological capabilities of inverter power source for gas metal arc welding
2014 S. A. Ermolin, A. S. Tarasov