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제1장 서론 10
1.1. 연구배경 및 목적 10
1.2. 연구내용 11
제2장 해양에너지 12
2.1. 해양에너지 기술현황 12
2.1.1. 조력발전 12
2.1.2. 파력발전 18
2.1.3. 해상풍력발전 30
2.2. 한국의 조력발전 기술 36
2.2.1. 조력발전의 조건 36
2.2.2. 조력발전의 기술 38
제3장 EFDC 모형의 현지 적용성 검토 42
3.1. EFDC모형 42
3.1.1. 지배방정식 45
3.2. 모형의 적용 51
3.2.1. 대상 해역 51
3.2.2. 실험조건 55
3.3. 실험결과 58
3.3.1. 현재상태 실험결과 58
3.3.2. 가로림 조력 발전소 운영시 상태 실험결과 71
3.4. 조력발전 특성 검토 84
3.4.1. 가로림 조력발전소 운영으로 인한 특성 검토 84
제4장 결론 및 향후 연구 과제 92
참고문헌 93
ABSTRACT 95
국문요약 97
Table. 2.1.1. Tidal power plant in other countries 14
Table. 2.1.2. The place where is expected as a tidal power plant in the future 15
Table. 2.1.3. The tidal power plant which is developing in country 16
Table. 2.1.4. Wave power generator of other countries 28
Table. 2.1.5. Wind power generator in country (2006) 35
Table. 3.2.1. Calculation condition of EFDC 55
Table. 3.4.1. Tidal current velocity change (ebb fide) 85
Table. 3.4.2. Tidal current velocity change (ebb fide) 85
Fig. 2.1.1. Section of tidal power generator 13
Fig. 2.1.2. The tidal power plant which is developing in country 17
Fig. 2.1.3. System of wave power generation 18
Fig. 2.1.4. Energy converting equipment using waves 20
Fig. 2.1.5. Sketch of floating type wave power generator (홍석원 등, 1998) 21
Fig. 2.1.6. Sketch of chamber type wave power generator (홍석원 등, 1998) 21
Fig. 2.1.7. Sketch of wave-overtopping type wave power generator (홍석원 등, 1998) 22
Fig. 2.1.8. LIMPET in operation (www.wavegen.co.uk) 23
Fig. 2.1.9. Pelamis (www.oceanpd.com) 24
Fig. 2.1.10. Wave dragon (www.wavedragon.net) 24
Fig. 2.1.11. AquaBuoy WEC (aquaenergygroup.com) 25
Fig. 2.1.12. Power Buoy WEC (www.oceanpowertechnologies.com) 26
Fig. 2.1.13. Mighty Whale (www.jamstec.go.jp) 27
Fig. 2.1.14. Picture of wave-overtopping type wave power generator (홍기용 등, 2005) 29
Fig. 2.1.15. Perspective view of Floating type wave power generator (홍기용 등, 2005) 29
Fig. 2.1.16. Structure of wind generator 32
Fig. 2.1.17. Composition of wind power generation system 33
Fig. 2.2.1. Tidal power generation condition 37
Fig. 2.2.2. Type of tidal power generation 38
Fig. 2.2.3. Method of tidal power generation(한국서부발전, 2005) 40
Fig. 3.1.1. Basic flowchart of 3D EFDC Hydrodynamic model 43
Fig. 3.1.2. Variable calculation scheme of 3D EFDC Hydrodynamic model 49
Fig. 3.1.3. Sigma(σ) Coordinate system 50
Fig. 3.2.1. Target area 52
Fig. 3.2.2. Garorim tidal power plant layout plan 53
Fig. 3.2.3. Rectilinear grid system of target area 56
Fig. 3.2.4. Sea bottom topography of target area 57
Fig. 3.3.1. Maximum current vector at spring tide (current state, wide) 59
Fig. 3.3.2. Maximum current vector at spring tide (current state, wide) 60
Fig. 3.3.3. Maximum current vector at spring tide (current state, small) 61
Fig. 3.3.4. Maximum current distribution at spring tide (current state, wide) 62
Fig. 3.3.5. Maximum current distribution at spring tide(current state, wide) 63
Fig. 3.3.6. Maximum current distribution at spring tide (current state, small) 64
Fig. 3.3.7. Minimum current vector at spring tide (current state, wide) 65
Fig. 3.3.8. Minimum current vector at spring tide (current state, wide) 66
Fig. 3.3.9. Minimum current vector at spring tide (current state, small) 67
Fig. 3.3.10. Minimum current distribution at spring tide (current state, wide) 68
Fig. 3.3.11. Minimum current distribution at spring tide (current state, wide) 69
Fig. 3.3.12. Minimum current distribution at spring tide (current state, small) 70
Fig. 3.3.13. Maximum current vector at spring tide (operation, wide) 72
Fig. 3.3.14. Maximum current vector at spring tide (operation, wide) 73
Fig. 3.3.15. Maximum current vector at spring tide (operation, small) 74
Fig. 3.3.16. Maximum current distribution at spring tide (operation, wide) 75
Fig. 3.3.17. Maximum current distribution at spring tide (operation, wide) 76
Fig. 3.3.18. Maximum current distribution at spring tide(operation, small) 77
Fig. 3.3.19. Minimum current vector at spring tide(operation, wide) 78
Fig. 3.3.20. Minimum current vector at spring tide(operation, wide) 79
Fig. 3.3.21. Minimum current vector at spring tide (operation, small) 80
Fig. 3.3.22. Minimum current distribution at spring tide (operation, wide) 81
Fig. 3.3.23. Minimum current distribution at spring tide (operation, wide) 82
Fig. 3.3.24. Minimum current distribution at spring tide (operation, small) 83
Fig. 3.3.25. Maximum current Changes distribution at spring tide(operation - current state, wide) 86
Fig. 3.3.26. Maximum current Changes distribution at spring tide(operation - current state, wide) 87
Fig. 3.3.27. Maximum current Changes distribution at spring tide(operation - current state, wide) 88
Fig. 3.3.28. Minimum current Changes distribution at spring tide(operation - current state, wide) 89
Fig. 3.3.29. Minimum current Changes distribution at spring tide(operation - current state, wide) 90
Fig. 3.3.30. Minimum current Changes distribution at spring tide(operation - current state, small) 91
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