온실내 잉여 태양에너지 분석 / 배용한

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학위논문 온실내 잉여 태양에너지 분석

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발행사항
진주 : 경상대학교 대학원, 2010.2
청구기호
TM 630 -10-3
형태사항
xii, 83 p. ; 26 cm
자료실 전자자료
제어번호
KDMT1201002666
주기사항
학위논문(석사) -- 경상대학교 대학원, 농공학, 2010.2. 지도교수: 윤용철
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외부기관 원문

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표제지

Abstract 13

I. 서론 16

II. 연구사 19

III. 재료 및 방법 22

1. 온실의 열적 거동 분석을 위한 TMY 자료 22

2. 수학적 온실모형 및 시뮬레이션 27

3. 잉여 태양에너지 분석 대상온실 30

IV. 결과 및 고찰 37

1. 지역별 기상 특성 37

2. 온실 형태별 잉여 태양에너지 분석 42

가. 1-2W형 42

나. 07-단동-4형 45

다. 07-자동화-1형과 08-자동화1형 47

라. 07-단동-1형과 07-단동-3형 52

3. 대상 지역별 잉여 태양에너지 57

가. 제주 57

나. 광주 58

다. 진주 58

라. 부산 59

마. 전주 60

바. 대구 61

사. 대전 62

아. 수원 63

자. 대관령 64

4. 설정온도 변화에 따른 잉여 태양에너지 66

가. 주야간 설정온도 66

나. 환기 설정온도 72

다. 주간 설정온도 78

라. 야간 설정온도 83

V. 요약 및 결론 90

참고문헌 93

List of Tables

Table 1. Key year by month of typical meteorological year data 23

Table 2. Composition of meteorological data by time (KMA) 24

Table 3. Composition of meteorological data by time (KSES) 26

Table 4. Meteorological elements for greenhouse simulation 28

Table 5. Parameters used for greenhouse simulation 29

Table 6. Types of greenhouse selected for analysis of surplus solar energy 30

Table 7. Changes of setting temperature 32

Table 8. Changes of ventilating temperature 32

Table 9. Changes of daytime temperature 33

Table 10. Changes of nighttime temperature 33

Table 11. Meteorological properties by the region (KMA) 38

Table 12. Meteorological properties by the region (KSES) 39

Table 13. Heat budget of 1-2W type greenhouse by month of typical meteorological year in Jeju 42

Table 14. Heat budget of 1-2W type greenhouse by month of typical meteorological year in Gwangju 43

Table 15. Heat budget of 1-2W type greenhouse by month of typical meteorological year in Suwon 43

Table 16. Heat budget of single-span greenhouse by month of typical meteorological year in Gwangju 45

Table 17. Monthly ratio of heating and surplus solar energy at single-span greenhouse 46

Table 18. Heat budget of 07-auto-1 type greenhouse by region of typical metorological year 48

Table 19. Heat budget of 08auto-1 type greenhouse by region of typical metorological year 48

Table 20. Heat budget of 07-mono-1 type greenhouse by region of typical metorological year 52

Table 21. Heat budget of 07-mono-3 type greenhouse by region of typical metorological year 53

List of Figures

Fig 1. Greenhouses size 36

Fig 2. Comparison of dry temperature provided at Korean Solar Energy Society and Korea Meteorological Administration (Gwangju). 40

Fig 3. Comparison of solar radiation provided at Korean Solar Energy Society and Korea Meteorological Administration (Gwangju). 40

Fig 4. Heating and surplus solar energy(Heater and Ventilation) of 1-2W type greenhouse 44

Fig 5. Heat budget of single-span greenhouse by month of typical meteorological year in Gwangju 45

Fig 6. Monthly ratio of heating and surplus solar energy at single-span greenhouse 47

Fig 7. Heating and surplus solar energy(Heater and Ventilation) of 07-auto-1 type greenhouse 49

Fig 8. Heating and surplus energy (Heater and Ventilation) of 08-auto-1 type greenhouse 49

Fig 9. Heating and surplus solar energy (Heater and Ventilation) per area of 07-auto-1(1,050m? type greenhouse 51

Fig 10. Heating and surplus solar energy (Heater and Ventilation) per area of 08-auto-1(2,592m? type greenhouse 51

Fig 11. Heating and surplus solar energy (Heater and Ventilation) of 07-mono-1 type greenhouse 53

Fig 12. Heating and surplus solar energy (Heater and Ventilation) of 07-mono-3 type greenhouse 54

Fig 13. Heating and surplus solar energy (Heater and Ventilation) per area of 07-mono-1(458m? type greenhouse 55

Fig 14. Heating and surplus solar energy (Heater and Ventilation) per area of 07-mono-3(679m? type greenhouse 56

Fig 15. Heating and surplus solar energy(Heater and Ventilation) per area in Jeju 57

Fig 16. Heating and surplus solar energy(Heater and Ventilation) per area in Gwangju 58

Fig 17. Heating and surplus solar energy(Heater and Ventilation) per area in Jinju 59

Fig 18. Heating and surplus solar energy(Heater and Ventilation) per area in Busan 60

Fig 19. Heating and surplus solar energy(Heater and Ventilation) per area in Jeonju 61

Fig 20. Heating and surplus solar energy(Heater and Ventilation) per area in Daegu 62

Fig 21. Heating and surplus solar energy(Heater and Ventilation) per area in Daejeon 63

Fig 22. Heating and surplus solar energy(Heater and Ventilation) per area in Suwon 64

Fig 23. Heating and surplus solar energy(Heater and Ventilation) per area in Daegwanryong 65

Fig 24. Surplus solar energy for setting temperature different of daytime and nighttime (07-auto-1 type) 67

Fig 25. Surplus solar energy for setting temperature different of daytime and nighttime (08-auto-1 type) 67

Fig 26. Heater energy for setting temperature different of daytime and nighttime (07-auto-1 type) 68

Fig 27. Heater energy for setting temperature different of daytime and nighttime (08-auto-1 type) 68

Fig 28. Surplus solar energy for setting temperature different of daytime and nighttime (07-mono-1 type) 70

Fig 29. Surplus solar energy for setting temperature different of daytime and nighttime (07-mono-3 type) 70

Fig 30. Heater energy for setting temperature different of daytime and nighttime (07-mono-1 type) 71

Fig 31. Heater energy for setting temperature different of daytime and nighttime (07-mono-3 type) 71

Fig 32. Surplus solar energy for setting temperature different of low speed and high speed ventilation (07-auto-1 type) 72

Fig 33. Surplus solar energy for setting temperature different of low speed and high speed ventilation (08-auto-1 type) 73

Fig 34.Heater energy for setting temperature different of low speed and high speed ventilation (07-auto-1 type) 74

Fig 35.Heater energy for setting temperature different of low speed and high speed ventilation (08-auto-1 type) 74

Fig 36. Surplus solar energy for setting temperature different of low speed and high speed ventilation (07-mono-1 type) 76

Fig 37. Surplus solar energy for setting temperature different of low speed and high speed ventilation (07-mono-3 type) 76

Fig 38. Heater energy for setting temperature different of low speed and high speed ventilation (07-mono-1 type) 77

Fig 39. Heater energy for setting temperature different of low speed and high speed ventilation (07-mono-3 type) 77

Fig 40. Surplus solar energy for setting temperature different of daytime (07-auto-1 type) 78

Fig 41. Surplus solar energy for setting temperature different of daytime (08-auto-1 type) 79

Fig 42. Heater energy for setting temperature different of daytime (07-auto-1 type) 80

Fig 43. Heater energy for setting temperature different of daytime (08-auto-1 type) 80

Fig 44. Surplus solar energy for setting temperature different of daytime (07-mono-1 type) 81

Fig 45. Surplus solar energy for setting temperature different of daytime (07-mono-3 type) 82

Fig 46. Heater energy for setting temperature different of daytime (07-mono-1 type) 82

Fig 47. Heater energy for setting temperature different of daytime (07-mono-3 type) 83

Fig 48. Surplus solar energy for setting temperature different of nighttime (07-auto-1 type) 84

Fig 49. Surplus solar energy for setting temperature different of nighttime (08-auto-1 type) 84

Fig 50. Heater energy for setting temperature different of nighttime (07-auto-1 type) 85

Fig 51. Heater energy for setting temperature different of nighttime (08-auto-1 type) 86

Fig 52. Surplus solar energy for setting temperature different of nighttime (07-mono1 type) 87

Fig 53. Surplus solar energy for setting temperature different of nighttime (07-mono-3 type) 87

Fig 54. Heater energy for setting temperature different of nighttime (07-mono-1 type) 88

Fig 55. Heater energy for setting temperature different of nighttime (07-mono-3 type) 88

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