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Optimum road spacing of ground based skidding operations in Nowshahr, Iran | ||
Caspian Journal of Environmental Sciences | ||
مقاله 3، دوره 6، شماره 2، تیر 2008، صفحه 105-112 اصل مقاله (295.25 K) | ||
نویسندگان | ||
M.R. Ghaffarian1؛ H. Sobhani2 | ||
1Institute of Forest Engineering, Department of Forest- and Soil Sciences, University of Natural Resources and Applied Life Sciences, A-1190 Vienna, Austria. | ||
2Dep. of Forestry, Faculty of Natural Resources, Tehran University, Karaj, Iran, P.O.Box: 31585-4314. | ||
چکیده | ||
The optimum road spacing has been studied by many researches. It is an important step of forest road network planning. The goals of this study are determining the optimum road spacing in Kheiroudkenar forest of Nowshahr in Northern Iran and study of effect of kind of skidder on skidding cost and road spacing. Continues time study method was used to determine the production rate of TAF and Timberjack 450 C skidders in two districts of Kheiroudkenar forest. The production models were developed using stepwise regression method with 46 working cycles for TAF and 44 for Timberjack. The total road construction and skidding cost were calculated for different road spacing for both skidders in one-way and two-way skidding. Based on minimizing the sum of the road and skidding costs, the optimum road spacing was estimated as 1714 m and road density of 5.8 m/ha for two-way skidding by Timberjack and estimated optimum road spacing of TAF was 1600 m and road density of 6.25 m/ha. For one-way skidding, the optimum road spacing of Timberjack was 1143 m and road density of 8.8 m/ha, for skidding by TAF, the optimum spacing was estimated as 1114 m and road density of 8.97 m/ha. The existing road density of Timberjack and TAF skidding sites was 28.16 and 17.11 m/ha respectively which are higher than optimum density. The study of variants method is applied to find the optimal network for existing network in Namkhaneh district. REFERENCES Abeli, W.S. and Magomu, G.M. (1993) Optimal road spacing for manual skidding sulkies, Journal of Tropical Forest Science, 6, 8-15. Akay, A. and Sessions, J. (2001) Minimizing road construction plus forwarding costs under a maximum soil disturbance constraint. The International Mountain Logging and 11th Pacific Northwest Skyline Symposium December 10-12, Seattle, Washington, USA: pp. 268-279. Bryer, J.B. 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(1990) Optimal spacing for multistage cable yarding operation, Canadian Journal of Forest Research. 20, 669-673. Huggard, E.R. (1978) Optimum road spacing, Quarterly journal of forestry. 72(4), 207-210. Jour Gholami, M. (2005) Study of efficiency, production and cost of large and small skidders (Case study of TAF and 112 Optimum road spacing of ground based skidding operations Timberjack 450 C). MSc. Dissretation, Faculty of Natural Resources, Tehran University Liu, S., and Corcoran, T.J. (1993) Road and landing spacing under the consideration of surface dimension of road and landings, Journal of Forest Engineering. 5, 49-53. Lotfalian, M. (2001) Study of factors influencing optimum road density in SangdehMazandaran, PhD Thesis, Faculty of Natural Resources, Tehran University. Matthews, D .M. (1942) Cost control in the logging industry. McGraw-Hill, New York, 374 p. Mostafanejad, A. (1995) Study of cost production of Timberjack 450 C and optimal length of skid trails, MSc. Dissretation, Faculty of Natural Resources, Tehran University. Naghdi, R. (2004) Study of optimum road density in tree length and cut to length systems, PhD Dissretation, Faculty of Natural Resources, University of Tarbiat Modarres, 177 p. Pentek, T., Picman, D., Potocnik, I., Dvorscak, P. and Nevecerel, H. (2005) Analysis of an existing forest road network. Croatian Journal of Forest Engineering, 26, 39-50. Peters, P.A. (1978) Spacing of roads and landings to minimize timber harvest cost, Journal of Forest Science, 24, 209-217. Peters, P.A. (1981) Road and landing spacing model. Forest operations analysis, IUFRO World Congress, Kyoto, Japan, September 6-12, 1981, pp. 51-68. Picman, D. and Pentek, T. (1998) The influence of forest roads building and maintenance costs on their optimum density in low lying forests of Croatia. Proceedings of the Seminar on Environmentally Sound Forest Roads and Wood Transport in Sinaia, Romania, Food and Agriculture Organization of the United Nations, Rome. pp. 87-102. Segebaden, G.V. (1964) Studies of crosscountry transportation distances and road net extension, Studia Forestalia Suecica, Nr.18. Sessions, J. (1986) Can income tax rules affect management strategies for forest roads, Western Journal of Applied Forestry, 1, 26- 28. Sessions, J. and Guangda, L. (1987) Deriving optimal road and landing spacing with microcomputer programs, Western Journal of Applied Forestry, 2, 22-26. Sessions, J. and Boston, K. (2006) Optimization of road spacing for log length shovel logging on gentle terrain, Journal of Forest Engineering. 17, 67-75. Shishiuchi, M. (1993) Optimal Skid Trail Spacing for Small Vehicles in Thinning, Journal of Forest Engineering, 5, 29-32. Spinelli, R., Owende. P., Ward, S. and Torneo, M. (2003) Comparison of shortwood forwarding systems used in Iberia. Silvia Fennica, 38, 85-94. Thompson, M.A. (1988) Optimizing spur road spacing on the basis of profit potential. Forest Product Journal. 38(5), 53- 57. Thompson, M.A. (1992) Considering overhead costs in road and landing spacing models, Journal of Forest Engineering, 3, 13-19. Wenger, K. (1984) Cost control formulas for logging operations. p. 560-563 in Forestry Handbook, 2nd Edition. Society of American Foresters. John Wiley and Sons. New York, 1335 p. Yeap, Y.H. and Sessions, J. (1988) Optimizing spacing and standards of logging roads on uniform terrain, Journal of Tropical Forest Science, 1, 215-228. | ||
کلیدواژهها | ||
skidder؛ Production؛ Cost؛ road density؛ road spacing | ||
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