Journal of the Korean Society of Fisheries and Ocean Technology (수산해양기술연구)

The Korean Society of Fisheries and Ocean Technology (한국수산해양기술학회)
권호 표지
DOI QR코드

DOI QR Code

Design and performance evaluation of fish-luring system using the air-cooled LED lamp for jigging and angling boat

채낚기 어선용 공랭식 LED 집어시스템의 설계 및 성능평가

  • Bae, Bong-Seong (Fisheries Resources Division, East Sea Fisheries Research Institute, National Fisheries Research & Development Institute) ;
  • Park, Byoung-Jae (Sailux Semiconductor Lighting, Inc.) ;
  • Jeong, Eui-Cheol (Fisheries Resources Division, East Sea Fisheries Research Institute, National Fisheries Research & Development Institute) ;
  • Yang, Yong-Su (Research and Development Planning Division, National Fisheries Research & Development Institute) ;
  • Park, Hae-Hoon (Fisheries Resources Division, East Sea Fisheries Research Institute, National Fisheries Research & Development Institute) ;
  • Chun, Young-Yull (Fisheries Resources Division, East Sea Fisheries Research Institute, National Fisheries Research & Development Institute) ;
  • Chang, Dae-Soo (Fisheries Resources Research Division, National Fisheries Research & Development Institute)
  • 배봉성 (국립수산과학원 동해수산연구소 어업자원과) ;
  • 박병재 ((주)싸이런스) ;
  • 정의철 (국립수산과학원 동해수산연구소 어업자원과) ;
  • 양용수 (국립수산과학원 연구기획과) ;
  • 박해훈 (국립수산과학원 동해수산연구소 어업자원과) ;
  • 전영열 (국립수산과학원 동해수산연구소 어업자원과) ;
  • 장대수 (국립수산과학원 자원연구과)
  • Published : 2009.05.31
Download PDF
⟨ Previous Next ⟩

Abstract

The fishing lamp is a fishing gear that gathers fish at night. But the cost of oil, which is used to light fishing lamp, has been risen significantly up to 30-40% of total fishing costs. Therefore it is very urgent to develop an energy economical fishing lamp in order to solve the business difficulties of fisheries. Under this background, this research aims at developing a fishing lamp for squid jigging and hairtail angling fishery using the LED, which has excellent energy efficiency and durability. The LED fishing lamp developed can be controlled to fix a fit direction of fish shoal deep because a fishing lamp can be adjustable up and down directions. One unit of fishing lamp has about an 80Watt capacity and the frame of fishing lamp is made of aluminium to emit generated heat of LED to outside. The LED lamp developed was highly durable, only 5.7% of emitting efficiency decreased for 18 months. The illuminance of a unit LED lamp was 2,070lux at 1m and 21lux at 10 m distance, and the intensity of LED lamp system emitted 2,580lux and 400lux at the respective distances. After development of this fishing lamp, 100 units are installed on operating fishing vessels. Experimental results show that energy consumption of squid jigging and hairtail angling was reduced by 40% and 87%, respectively. In conclusion, our methods showed elevated fishing power, compared with traditional fishing method: 37.7% for squid jigging and 24.5% for hairtail angling.

Keywords

References

  1. An, H.C. and H.D. Choo, 1993. Fishing efficiency of squid jigging in relation to the variation of fishing lamp power. Bull. Nat. Fish. Res. Dev. Agency, 48, 179-186
  2. Bae, B.S., E.C. Jeong, H.H. Park, D.S. Chang and Y.S. Yang, 2008. Behavioral characteristic of Japanese flying squid, Todarodes pacificus to LED light. J. Kor. Soc. Fish. Tech., 44(4), 294-303 https://doi.org/10.3796/KSFT.2008.44.4.294
  3. Chancey, M.A., 2005. Short range underwater optical communication links. Master Thesis, North Carolina States University, U.S.A., pp. 6 17, pp. 41-43
  4. Choi, S.J. and T. Arimoto, 1996. Corroborative field research, In: Report of rationalization of the light power on small type squid jigging boat. National Federation of Fisheries Co operative Associations, Tokyo, pp. 1-14
  5. Choi, S.J., 1997. Rationalization of the light power output on small-size squid jigging boat. Ph.D. Thesis, Tokyo University of Fisheries, Tokyo, Japan, pp. 1-289
  6. Choi, S.J. and H. Arakawa, 2001. Relatonship between the catch of squid, Todarodes pacificus STEENSTRUP, according to the jigging depth of hooks and underwater illumination in squid jigging boat. J. Korean Fish. Soc., 34(6), 624-632
  7. Choi, S.J., 2006. Radiation and underwater transmission characteristics of a high-luminance light-emitting diode as the light source for fishing lamps. J. Korean Fish. Soc., 39(6), 480-486 https://doi.org/10.5657/kfas.2006.39.6.480
  8. Choi, S.J., 2008. Comparison of radiation characteristics and radiant quantities per unit electrical power between high luminance light emitting diode and fishing lamp light source. J. Korean Fish. Soc., 41(6), 511-517 https://doi.org/10.5657/kfas.2008.41.6.511
  9. Inada, H., 1988. Measurement of the underwater spectral irradiance under the squid jigging boat. Joumal of the Tokyo Univ. of Fisheries, 75, 487-498
  10. Inada, H. and M. Ogura, 1988. Historical change of fishing light and its operation in squid jigging fisheries. Rep. Tokyo Univ. Fish., 24, 189-207
  11. Jo, H.S., T.Y. Oh, Y.S. Kim and D.Y. Moon, 2006. Transmittance properties of fishing lamp in distant water squid jigging vessel. J. Kor. Soc. Fish. Tech., 42(4), 228-233 https://doi.org/10.3796/KSFT.2006.42.4.228
  12. Kim, L.H., J.S. Lee, B.M. Jeong, W.J. Jang, S.B. Han, C.H. Hong and M.G. Hwang, 2006. High power LEDs and solid state lighting technologies. Ajin publishing company, pp. 112 114, pp. 121-131
  13. Lee, B.G., S.W. Park and J.K. Kim, 1985. An introduction to coastal fishery. Taehwa publishing company, pp. 112-115

Cited by

  1. Catching efficiency of LED fishing lamp and behavioral reaction of common squid Todarodes pacificus to the shadow section of color LED light vol.47, pp.3, 2011, https://doi.org/10.3796/KSFT.2011.47.3.183
  2. Development of a 250-W high-power modular LED fish-attracting lamp by evaluation of its thermal characteristics vol.51, pp.2, 2015, https://doi.org/10.3796/KSFT.2015.51.2.163
  3. Spectral Irradiance and Underwater Transmission Characteristics of a Combined High-Luminance Light-Emitting Diodes as the Light Source for Fishing Lamps vol.42, pp.6, 2009, https://doi.org/10.5657/kfas.2009.42.6.703
  4. Estimating the economic effectiveness of LED fishing light systems for the squid jigging fishery vol.48, pp.4, 2012, https://doi.org/10.3796/KSFT.2012.48.4.346
  5. Selection of lamp reflector construction and fishing time of lift net vol.43, pp.2, 2017, https://doi.org/10.1016/j.ejar.2017.06.003
  6. Simulation of undewater irradiance distribution in coastal squid jigging vessel using the LED and metal halide fishing lamp combination vol.50, pp.4, 2014, https://doi.org/10.3796/KSFT.2014.50.4.511
  7. Design and performance estimation of fish-luring system using the water cooling typed LED lamp vol.47, pp.2, 2011, https://doi.org/10.3796/KSFT.2011.47.2.079
  8. Characteristics of Spectral Irradiance Based on the Distance from the Light Source and Operating Method for Fishing Lamps with a Combined Light Source vol.42, pp.6, 2009, https://doi.org/10.5657/kfas.2009.42.6.711
  9. Operating Performance of hair-tail angling vessel using the LED and metal halide fishing lamp combination vol.48, pp.4, 2012, https://doi.org/10.3796/KSFT.2012.48.4.337
  10. Distribution patterns of the Japanese common squid, Todarodes pacificus attracted around the luring lamp on the jigging boat vol.52, pp.3, 2016, https://doi.org/10.3796/KSFT.2016.52.3.276
  11. The study on the Anchovy's (Engraulis japonica) reaction to several light colors in a tank vol.47, pp.4, 2011, https://doi.org/10.3796/KSFT.2011.47.4.327
  12. Operating performance of squid jigging vessel using the LED and metal halide fishing lamp combination vol.49, pp.4, 2013, https://doi.org/10.3796/KSFT.2013.49.4.395
  13. The Optical Characteristics of 240 W High Power LED Fish Luring Lamp vol.19, pp.6, 2013, https://doi.org/10.7837/kosomes.2013.19.6.681
  14. Development of a metal-halide lamp's electronic ballast vol.49, pp.2, 2013, https://doi.org/10.3796/KSFT.2013.49.2.116
  15. Fishing efficiency of LED fishing lamp for squid Todarodes pacificus by training ship vol.48, pp.3, 2012, https://doi.org/10.3796/KSFT.2012.48.3.187