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

Carbon emissions monitoring of angling boat for the largehead hairtail (Trichiurus lepturus)

갈치 채낚기어선의 온실가스 배출량 모니터링

  • Euna YOON (Fisheries Resource Research Center, National Institute of Fisheries Science) ;
  • Geunchang PARK (Department of Fisheries Physics, Pukyong National University) ;
  • Yong Beom PYEON (Korea Institute of Fisheries and Ocean Engineering) ;
  • Wooseok OH (Institute of Low-Carbon Marine Production Technology Pukyong National University) ;
  • Kyounghoon LEE (Division of marine production system management, Pukyong National University)
  • 윤은아 (국립수산과학원 수산자원연구센터) ;
  • 박근창 (부경대학교 수산물리학과) ;
  • 편용범 (한국수산해양공학연구소) ;
  • 오우석 (부경대학교 저탄소해양생산기술연구소) ;
  • 이경훈 (부경대학교 해양생산시스템관리학부)
  • Received : 2024.01.25
  • Accepted : 2024.02.20
  • Published : 2024.02.28
Download PDF
⟨ Previous Next ⟩

Abstract

This study examined the power consumption of angling boats during entry, departure, and fishing operations using a black box-type storage device. Through this analysis, it determined the energy consumption and carbon emissions of small fishing boats used for catching the largehead hairtail. The energy consumption and carbon emissions were calculated using formulas provided by the Korea Energy Agency, which incorporated updated emission coefficients from 2022. The findings revealed that the average power consumption of small fishing boats for the largehead hairtail was 546.3 kWh, with a total energy consumption of 0.1164 TOE and carbon emissions of 24.057 CO2. The average energy consumption was calculated at 0.0006 TOE per kilogram, and the carbon emissions were determined to be 0.135 CO2/kg.

Keywords

Acknowledgement

이 논문은 2022년 해양수산부 해양수산과학기술진흥원 재원으로 AI기반 스마트어업관리시스템 개발 사업(No. 20210499)의 지원을 받아 수행되었으며, 본 논문을 사려 깊게 검토하여 주신 심사워원님들과 편집위원님께 감사드립니다.

References

  1. Bae J, Yang YS, Kim HY, Hwang BK, Lee CW, Park S and Lee J. 2019. A quantitative analysis of greenhouse gas emissions from the major offshore fisheries. J Korean Soc Fish Ocean Technol 55, 50-61. https://doi.org/10.3796/KSFOT.2019.55.1.050.
  2. Choi JH, Kim WR, Jang KS and Park JC. 2006. A study for a reduction of machinery damage on fishing vessels. Journal of Korea Ship Safety Technology Authority 21, 51-65.
  3. EG-TIPS. 2024. Website on tips, energy. Retrieved from https://tips.energy.or.kr/popup/toe.do on Jan 6.
  4. Han IW, Kim KB, Oh WS, Park GC and Lee KH. 2022. On-site measurement of carbon emissions of set net and bamboo weir fishing boats. J Korean Soc Fish Ocean Technol 58, 214-222. https://doi.org/10.3796/KSFOT.2022.58.3.214.
  5. Hang JB. 2022. An Optimal Production Analysis of Offshore Fisheries Considering Reduction of Greenhouse Gas (GHG) Emissions in Korea Focusing on Large Purse Seine Fishery. Ph. D. Thesis, Pukyong National University, Republic of Korea, 152.
  6. Jeong HC, Kim GY, Lee SB, Lee JS, Lee JH and So KH. 2012. Evaluation of Greenhouse Gas Emissions in Cropland Sector on Local Government Levels based on 2006 IPCC. J Kor Soil Sci Fert 45, 842-487. https://doi.org/10.7745/KJSSF.2012.45.5.842.
  7. Kim WR, Choung KG and Lee KD. 2009. Researches in the Improvement of Safety Management System for the Fishing Vessel. J Kor Ship Safety Technology Authority 26, 47-59.
  8. Kim PS, Kim JH, Son JH, Kim JS, Choi SJ, Park Sk and Park GJ. 2014. A study on the method of estimating the greenhouse gas emissions base on the classification of fishing boat. J Climate Change Res 5, 301-311. https://doi.org/10.15531/KSCCR.2014.5.4.301.
  9. Kim JH, Lee K, Lee DG, Park SW and Yang YS. 2014. Estimation of Green-House-Gas emissions from domestic eel farm. J Korean Soc Fish Ocean Technol 50, 58-66. https://doi.org/10.3796/KSFT.2014.50.1.058.
  10. Korea. 2021. Website on special. Retrieved from https://www.korea.kr/special/policyCurationView.do?newsId=148881562 on Jan 11, 2024.
  11. KOSTAT. 2023. Website on KOSIS. Retrieved from https://kosis.kr/statHtml/statHtml.do?orgId=307&tblId=TX_30701_A000&vw_cd=MT_ZTITLE&list_id=307_30701_1&scrId=&seqNo=&lang_mode=ko&obj_var_id=&itm_id=&conn_path=K1&path on Jan 13, 2024.
  12. Lee DW, Lee JB, Kim YH and Jung SG. 2010. Calculation of Carbon Dixoide Emissions by South Korea's Fishery Industry. Kor J Fish Aquat Sci 43, 78-82. https://doi.org/10.5657/kfas.2010.43.1.078.
  13. Lee KH, Kim SK, Kim SH, Yang YS and Park SW. 2014. Development and efficiency of filter device for the emission reduction from the diesel engine in fishing boat. J Korean Soc Fish Ocean Technol 50, 50-57. https://doi.org/10.3796/KSFT.2014.50.1.050.
  14. Lee SD, Koh DK and Jung SH. 2014. A study on the greenhouse gas emission from ships with training ship HANBADA. JAMET 38, 240-425. https://doi.org/10.5916/jkosme.2014.38.3.240.
  15. Lee SH, Kim HY, Yang YS and Kang DY. 2018. Comparative study of greenhouse gas emission from coastal and offshore gillnet and trap fisheries by field research. J Korean Soc Fish Ocean Technol 54, 315-323. https://doi.org/10.3796/KSFOT.2018.54.4.315.
  16. MOF. 2024. Website on statPortal. Retrieved from https://www.mof.go.kr/statPortal/mobile/commonStatViewTop.do on Jan 6.
  17. MTIS. 2024. Website on accRate. Retrieved from https://mtis.komsa.or.kr/ana/accRate. Accessed 6 Jan 2024.
  18. Park HW. 2010. A study on the forecast of marine fuel cell market. Journal of Advanced Marine Engineering and Technoloy 34, 1,212-1,221.
  19. Son YK, Choe S, Lee SY, Kim SY and Sul SK. 2017. Application of DC distribution IPS to a 10t Class Fishing Boat. Transactions of Korea Institute of Power Electronic 22, 353-359. https://doi.org/10.6113/TKPE.2017.22.4.353.
  20. Yang YS, Lim HK, Lee K, Lee DG and Shin HH. 2015. Estimation of Green-House-Gas emissions from domestic aquaculture farm for flounders. J Koran Soc Fish Technol 51, 614-623. https://doi.rg/10.3796/KSFT.2015.51.4.614.