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http://dx.doi.org/10.5389/KSAE.2020.62.1.095

Estimation of Characteristic of the Soil Physical using the Pipe Type Soil Sampler  

Ryu, Ji Hyun (Hwaseong.Suwon District Office, Korea Rural Community Corporation)
Jung, Myung Kwan (Department of Agricultural Engineering, Kongju National University)
Park, Seung Ki (Department of Regional Construction Engineering, Kongju National University)
Publication Information
Journal of The Korean Society of Agricultural Engineers / v.62, no.1, 2020 , pp. 95-104 More about this Journal
Abstract
The purpose of this study is to develop a pipe type soil sampler that can easily collect soil cross section servey and soil samples to conduct ecological environment surveys while minimizing ecological disturbance in the area subject to soil survey. Furthermore, this study develop the exponential type estimation specific weight formula (ESWF) that uses pipe type soil sampler to easily carry out soil cross section survey and soil sample while estimating the specific weight of the area using water content and soil sample length variation ratio (SLVRs) and to obtain apparent specific gravity, hardness, and max. porosity which are used as growth of corps and ecological environment index. The calibration results of ESWF showed a high degree of significance, with NSE for actual specific weight (γ0) and calibration estimation specific weight (γec) 0.95, R2 for 0.954, and RMSE for 0.051. The verification results of ESWF showed a high significance, with NSE for actual specific weight (γ0) and verification estimation specific weight (γev) 0.881, R2 for 0.978, and RMSE for 0.055.
Keywords
Pipe type soil sampler; experimental soil column; specific weight; apparent specific gravity; hardness; soil sample length variation ratio (SLVR); estimation specific weight formula (ESWF);
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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1 Kang, M. S., and S. W. Park, 2003. Development and application of total maximum daily loads simulation system using nonpoint source pollution model. Journal of Korean Water Resources Association 36(1): 117-128 (in Korean).
2 Kim, J. G., J. H. Park, B. J. Choi, J. H. Shim, G. J. Kwon, B. A. Lee, Y. U. Lee, and E. J. Joo, 2006. Ecological research methodology, Bomoondang, Seoul, p. 44 (in Korean).
3 KREI, 2016. Smart farm operation analysis and development direction research, KREI, Naju, p. 145 (in Korean).
4 KSF2302:2017, 2017. Standard test method for particle size distribution of soils, Korean Agency for Technology and Standards.
5 KSF2306:2015, 2015. Standard test method for water content of soils, Korean Agency for Technology and Standards.
6 KSF2333:2015, 2015. Standard test method for moisturepenetration resistance relations of fine-grained soils, Korean Agency for Technology and Standards.
7 KSIISO10381-1:2009, 2014. Soil quality-sampling-part 1: Guidance on the design of sampling programmes, Korean Agency for Technology and Standards.
8 KSIISO10381-4:2009, 2014. Soil quality-sampling-part 4: Guidance on the procedure for investigation of natural, near-natural and cultivated sites.
9 Lee, J. C., 2004. Cost-effective investigation on contaminated land and assessment of measurement uncertainty. Economic and Environmental Geology 37(1): 49-59 (in Korean).
10 ASTM, 2006. Annual Book of ASTM Standards, Vol. 04.08, Soil and Rock (I):D420-D5611, pp. 841-856.
11 Chang, P. W., W. J. Jeon, C. S. Song, C. Yu, S. H. Eam, and Y. S. Kim, 2009. Soil mechanics, Goomibook, Seoul, Korea, p. 56 (in Korean).
12 Ryu, J. H., 2009. Development of pipe type soil sampler for ecology environmental survey, Master Degree, Kongju, Kongju National University (in Korean).
13 Park, Y. S., and J. H. Kwon, 2014. Application and effectiveness analysis of SWAT filter strip in Golji watershed. Korean Journal Environmental Agriculture 33(1): 30-36 (in Korean). doi:10.5338/KJEA2014.33.1.30.   DOI
14 RDA, NAST, 2000. Analysis method of the soil and plant, NAST, Suwon, p. 202 (in Korean).