한국농공학회지 (Magazine of the Korean Society of Agricultural Engineers)

한국농공학회 (The Korean Society of Agricultural Engineers)
권호 표지

관재료 및 피복재료별 농경지 암거배수 효과 분석

Analyses of subsurface drainage effects of farmland with respect to pipe and envelop material

  • 발행 : 1995.10.01
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

Analyses of subsurface drainage effects of farmland with respect to pipe and envelop material are made by the laboratory experiments using soil box to give basic information for the subsurface drainage system planning and design. Three different diameter PVC perforated pipes and a mesh pipe are used with envelop materials such as sand, rice bran, and crushed stone. Steady state subsurface drainage flow rate increased as envelop material changed from sand to rice bran and crushed stone. This indicates that as the hydraulic conductivity of the envelop material increases, the drainage flow rate increases. On the other hand, for a given envelop material, the mesh pipe which has the largest openning area shows the largest flow rate while small diameter PVC pipes show small flow rates. This tells that as the openning area and pipe diameter increase, the flow rate increases, too. Therefore, selection of pipe and envelop material should be made in accordance with the design drainage flow rate. Unsteady state subsurface drainage flow rate with respect to time differs for different envelop material. In case the sand was used as an envelop material, the small diameter PVC pipes show larger flow rates than the large diameter PVC pipe and mesh pipe. When the rice bran was used, the mesh pipe shows the largest flow rate, while small diameter pipes show smaller flow rates. In case the crushed stone was used as an envelop material, the large diameter PVC pipe and mesh pipe show larger flow rates, while small diameter pipes show a little bit smaller flow rates. However, the variation of flow rates among different pipes is the smallest when the crushed stone is used. The flow rate curve with respect to the pipe changes little for the crushed stone envelop which has a large hydraulic conductivity, while that changes much for the sand and rice bran envelops. However, it is difficult to draw a consistent relationship between the drainage flow rate and pipe for all the envelop materials. Since the subsurface drainage experiments are made only under the restricted laboratory condition in this study, further study including field experiment is required.

키워드

참고문헌

  1. 한국관개배수 v.1 no.1 범용화 논의 암거배수조직 설계기법 김선주;여운식;김형중
  2. 농지개량 no.통권105 과학화된 농업생산기반의 정비 및 수질보전이 필요 김철기
  3. 농지개량사업계획설계기준-계획, 배수편 농수산부
  4. 플라스틱관의 규격 및 설계시공지침정립 농어촌진흥공사
  5. 농경지 이용을 제고를 위한 최적설계기법 연구 농어촌진흥공사
  6. 농지개량 no.통권 120 일본의 농지기반정비 사업의 현황과 전망 정상옥
  7. 한국농공학회지 v.35 no.2 지하 암거배수 및 지하관개 기법 정상옥
  8. Subirrigation and controlled drainage Belcher,H.W.(ed.);D'ltri,F.M.(ed.)
  9. Journal of Irrigation and Drainage Division, ASCE v.109 no.IR4 Drain tube opening effects on drain inflow Mohammad,F.S.;Skaggs,R.W.
  10. Technical Report No.134 A water management model for shallow water table soils Skaggs,R.W.
  11. Subirrigation and Controlled Drainage Hydraulic head losses near agricultural drains : Preliminary results and research needs Susanto,R.H.;Skaggs,R.W.;Belcher,H.W.(ed.);D'ltri,F.M.
  12. 박사학위논문 汎用化水田の 暗渠排水設計に 關する 硏究 村島和男
  13. 山口大學農學部 農地整備造成學硏究室 硏究報告 no.4 上管暗渠の 機能特續機構について 山口大學 農學部
  14. 山口大學農學部 農地整備造成學硏究室 硏究報告 no.5 土管および 被覆材の 吸排水 機能に 關する水理 模型實驗について 山口大學 農學部
  15. 暗渠排水用管材要覽 전지농업진흥회
  16. 暗渠排水の 設計と 施工 전지농업진흥회
  17. 暗渠排水 Q & A. 施工事例 전지농업진흥회
  18. 土地改良事業計劃設計基準-計劃暗渠排水 農林水産省 構造改善局
  19. 汎用耕地化のための技術指針 汎用耕地化のための技術指針編輯委員會
  20. 日本農業土木學會誌 v.60 no.8 小特集-汎用圃場