Journal of Energy Engineering (에너지공학)

The Korean Society for Energy (한국에너지학회)
권호 표지

Dissolution Behavior of Liquid CO2 Injected into the Ocean at the Untermediate Depth

중층심해에 분사된 액체 이산화탄소의 용해거동에 관한 연구

  • Published : 2000.02.01
Download PDF
⟨ Previous Next ⟩

Abstract

인류가 발생시키는 이산화탄소를 액화시켜 해양에 저장 또는 용해시키는 방법이 지구온나화 현상을 완화시키는 기술로 알려져있으며, 이 방법을 발전시키기위해서는 심해에 분사된 이산화탄소 액적의 용해거동을 정확히 예측하여야한다. 본 연구에서 중층심해 1000m와 1500m 깊이에 분사된 액체 이산화탄소 액적의 용해거동을 계산한 결과, 해저 약 4500m 깊이에서 이산화탄소의 밀도와 용해도가 가장 크게 변하였고, 분사된 이산화탄소는 초기 액적 지름이 각각 0.010m 그리고 0.015m 이하일 때 500m 이하의 깊이에서 완전히 용해되었다. 그리고 해수와 액체 이산화탄소의 접촉면에 생성되는 하이드레이트막이 이산환탄소 용해에 장애물로 작용한다는 것을 확인하였다.

Keywords

References

  1. Climate Change v.1 On Geoengineering and CO₂Problem Marchetti, C.
  2. Informal Report BNL 35666 A Systems Study for Removal, Recovery and Disposal of Carbon Dioxide from Fossil Fuel Power Plants in U.S. Steinberg, M.;Cheng, H.C.;Horn, F.
  3. Energy Convers. Mgmt. v.38 Sup. Safety of the Underground Disposal of Carbon Dioxide Sam, H.
  4. Energy Convers. Mgmt. v.37 no.6-8 Environmental Impacts of Ocean Disposal of CO₂ Herzog, H.J.;Adams, A.A.;Auerbach, A.;Caulfield, J.
  5. J. Chem. Eng. Data v.43 Solubility of Liquid CO₂in Synthetic Sea Water at Temperatures from 278K to 293K and Pressures from 6.44MPa to 29.49MPa, and Densities of the Corresponding Aqueous Solution Teng, H.;Yamasaki, A.
  6. Energy Convers. Mgmt. v.36 Stability of Liquid CO₂Spheres Covered with Clathrate Film When Exposed to Environment Simulating the Deep Sea Nishikawa, N.;Ishibashita, M.;Ohta, H.;Akutsu, N.;Tajika, M.;Sugitani, T.;Hiraoka, R.;Kimuro, H.;Moritoki, M.
  7. Energy Convers. Mgmt. v.36 no.6-8 Transport phenomena of Liquid CO₂in Pressurized Water Flow with Clathrate-Hydrate at the Interface Hirai, S.;Okazaki, K.;Araki, Yazawa, H.;Ito, H.;Hijikata, K.
  8. Energy Convers. Mgmt. v.22 no.2-3 Dissolution Rate of Liquid CO₂in Pressurized Water Flows and the Effects of Clathrate Film Hirai, S.;Okazaki, K.;Tabe, Y.;Hijikata, K.;Mori, Y.
  9. ASME HTD v.215 Stability of Clathrate-Hydrate of Carbon Dioxide in Highly Pressurized Water Aya, I.;Yamane, K.;Yamada, N.
  10. Direct Ocean Disposal of Carbon Dioxide Formation of Stability of CO₂Hydrate Shindo, Y.;Fujikoka, Y.;Yanagishita, Y.;Hakuta, T.;Komiyama, H;N. Handa;T. Ohsumi(eds.)
  11. Energy Convers. Mgmt v.37 no.6-8 Solubility of CO₂in the Ocean and its effect on CO₂Dissolution Teng, H.;Masutani, S.M.;Kinoshita, C.M.;Nohous, G.C.
  12. MIT-EL91-002 Modeling the Release of CO₂in the Deep Ocean Liro, C.R.;Adams, E.E.;Herzog, H.J.
  13. Environment Progress v.10 no.1 Feasibility, Modeling and Economics of Sequestering Power Plant CO₂Emissions in the Deep Ocean Herzog, H.;Golomb, D.;Zemba, S.
  14. 1969, Phase Equilibrium in Mixtures King, M.B.
  15. Energy Convers. Mgmt. v.39 no.7 Dissolution of Liquid CO₂into Water at High Pressures : A Search for the Mechanism of Dissolution being Retarded Through Hydrate-Film Formation Mori, Y.H.;Mochizuki, T.
  16. Bubbles, Drops and Particles Clift, R.;Grace, J.R.;Weber, M.E.
  17. A. I. Ch. J. v.1 Correlation of Diffusion Coefficient Dilute Solutions Wilke, C.R.;Chang, P.
  18. REPORT 6.01 National Institute of Standards and Technology Database 23
  19. IRI/LDEO Climate Data Library