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조봉곤(Bong-Kon CHO),고관서(Kwan-Soh KO) 군산대학교 수산과학연구소 1994 군산대학교 수산과학연구소 연구논문집 Vol.2 No.-
To catch the surf clam. Mactra chinensis, in sand bottom using the excavating performance of water jet, the authors had constructed the experimental hydraulic jet dredge by the result of water tank experiment of previous report, and also were carried out the field experiments in the surf clam fishing ground near Kunsan, Korea from 5th to 30th of october, 1990. The results obtained are as follows.
조봉곤(Bong Kon CHO),박종수(Jong Soo PARK),이원우(Won Woo LEE),장호영(Ho Young CHANG) 군산대학교 수산과학연구소 1994 군산대학교 수산과학연구소 연구논문집 Vol.2 No.-
In order to develop the fishing method for harvesting the surf clam. Mactra chinensis(PHILIPPI), by hydraulc jet dredge, the authors carried out an excavating experiment using a water-jet nozzle on the sand in a water tank. After that the authors designed and constructed an experimental hydraulic jot dredge on the basis of the results of their water tank experiment, and executed an experimental fishing operation in fishing grounds. 1. Excavating performance of water jet nozzle on the sand in a water tank : 1) Maximum excavating depth and width on the sand by water jet were straightly increased in proportion to the velocity of water jet and the cross section of nozzle, but according to the distance from nozzle tip to water jetted point on sand, the excavating depth was decreased inversely, while the excavating width increased proportionally. 2) A rectangular nozzle wbich the width of hole was Imm was a slightly better than a circular nozzle of same cross section, in the excavating performance. 3) Empirical equations between the velocity of water jet, the distance of nozzle, and the maximum excavating depth and width were expressed as follows at a 45˚, angle of the rectengular nozzle(1X12mm); D = O.0093V0-O.23H+5.7 W = O.OI47V0+I.06H+10.2 where, D is the maximum excavating depth(cm), W is the maximum excavating width(cm), V0 is the velocity of water jet(cm/s) ; 926≤Vo≤1504, H is the distance of nozzle from excavating point on the sand. 2. Performance of the Experimental Hydraulic Jet Dredge : 1) Excavating depth was more than 10-11cm, at a water velocity of 120Ocm/s 11-13cm at the 135Ocm/s, 13-14cm at the 1500cm/s in fine sand and muddysand. 2) Towing tension was only IO5±5kg in 6.7cm/s towing speed. 3) Average catch amount per unit towing area was O.42kg/m and it was 1.2-1.6 times that of the conventional dredge. 4) The Experimental hydraulic jet dredge did not nearly break the surf clam. 5) Turbidity variation by the water jet of dredge were not serious in the fishing ground: On the surface, when the depth was more than 5.2m, turbidity variation was not found at all, and at the 3m layer above the bottom, turbidity variation was increased to the 9-llppm at 1m behind the dredge, but it gradually decreased and was negligable from 9m behind the dredge.
이원우(Lee Won-woo),조봉곤(Cho Bong-kon) 군산대학교 수산과학연구소 1987 水産科學硏究 Vol.- No.3
In order to evaluated the automatic Loran C system in the fishing ground, it was observed with Loran C, 9970 chain and Radar at the same time on underway fishing vessel in the Southern YeJlow Sea and the Western South Sea. The error of Time Difference was mainly dominated by propagation path condition and the mean value of positional error between two positions by Loran C and Radar was about 0.24 miles. The directions of positional error vector were nearly same at each observed point m same sea area.