• 제목/요약/키워드: liquid carbon dioxide

검색결과 232건 처리시간 0.03초

이산화탄소 해양 분사방법에 대한 비교연구 (Comparative Study on the Ocean Disposal Methods of Carbon Dioxide)

  • 김남진;김종보
    • 에너지공학
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    • 제13권4호
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    • pp.301-310
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    • 2004
  • 이산화탄소를 해양에 대량으로 처리하는 기술이 지구온난화현상을 완화시키는 기술의 하나로 알려져 있다. 따라서 본 연구에서는 이산화탄소를 해수에 용해시키기 위해서 중층심해 1,000m와 1,500m 깊이에 분사된 액체 이산화탄소의 용해거동을 계산한 결과, 해저 약 500m 깊이에서 이산화탄소는 액체에서 기체로 상변화를 일으키며, 이산화탄소와 해수의 접촉면에 생성되는 하이드레이트는 용해에 장애물로 작용하였다. 또한 움직이는 배에서 이산화탄소를 분사하는 방법이 고정파이프라인에서 분사하는 방법보다 용해에 더 효과적이었다.

중층심해에 분사된 액체 이산화탄소의 용해특성 (Dissolution Characteristics of Liquid $CO_2$ Injected at the Intermediate Depth of the Ocean)

  • 김남진;이재용;서태범;김종보
    • 태양에너지
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    • 제20권2호
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    • pp.75-84
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    • 2000
  • Global wanning induced by greenhouse gases such as carbon dioxide is a serious problem for mankind. Carbon dioxide ocean disposal is one of the promising options to reduce carbon dioxide concentration in the atmosphere because the ocean has vast capacity for carbon dioxide sequestration. However, the dissolution rate of liquid carbon dioxide in seawater must be known in advance in order to estimate the amount of carbon dioxide sequestration in the ocean. Therefore, the solubility, the surface concentration, the droplet size and other factors of liquid carbon dioxide at various depths are calculated. The results show that liquid carbon dioxide changes to carbon dioxide bubble around 500 m in depth, and the droplet is completely dissolved below 500 m in depth if carbon dioxide droplet is released both at 1000 m in depth with the initial droplet diameter of 0.011 m or less and at 1500 m in depth with the diameter of 0.015 m or less. In addition, the hydrate film acts as a resistant layer for the dissolution of liquid carbon dioxide. The surface concentration of carbon dioxide droplet with the hydrate film is about 50% at 1500 m in depth and about 60% at 1000 m in depth of the carbon dioxide solubility. Also, the ambient carbon dioxide concentration in the plume is an another crucial parameter for complete dissolution at the intermediate ocean depth, and the injection of liquid carbon dioxide from a moving ship is more effective than that from a fixed pipeline.

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Dissolution Characteristics of Liquid Carbon Dioxide Injected at the Intermediate Depth of the Ocean

  • Namjin Kim, Jaeyong-Lee;Byungki Hur;Taebeom Seo;Kim, Chongbo
    • Journal of Mechanical Science and Technology
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    • 제14권11호
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    • pp.1276-1285
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    • 2000
  • The solubility, the surface concentration and the dissolution behavior of carbon dioxide in deep sea were numerically investigated. Base on the calculations the relations between the surface concentration of liquid carbon dioxide droplet with the hydrate film and the solubility and those between the ambient carbon dioxide concentration in the plume and the dissolution rate were obtained. The result show that a carbon dioxide droplet is released both at 1000 m in depth with the initial droplet diameter of 0.011 m or less and at 1500 m in depth with a diameter of 0.015 m or less, and the droplet is completely dissolved below 500 m in depth. The hydrate film acts as a resistant layer for the dissolution of liquid carbon dioxide, and the effect of the hydrate film on the dissolution of liquid carbon dioxide depended upon the depth.

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중층심해에 분사된 액체 이산화탄소 용해 예측모델 개발 (Simulation Model for Dissolution of Liquid $CO_2$ Discharged at Intermediate Depth of Ocean)

  • 김남진;김종보
    • 설비공학논문집
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    • 제15권9호
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    • pp.718-726
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    • 2003
  • Carbon dioxide ocean disposal is one of the promising options to reduce carbon dioxide concentration in the atmosphere because the ocean has vast capacity for carbon dioxide sequestration. However, the dissolution rate of liquid carbon dioxide in seawater must be known in advance in order to estimate the amount of carbon dioxide sequestration in the ocean. Therefore, in the present study, calculations of the solubility, the surface concentration and the dissolution behavior of carbon dioxide when liquid carbon dioxide is released at 1,000m and 1,500m in depth are peformed. The results show that the droplet is completely dissolved below 500 m in depth if the carbon dioxide droplet is released both at 1,000m in depth with the initial droplet diameter of 0.011m or less and at 1,500m in depth with the diameter of 0.016 or less. Also, the surface concentration of carbon dioxide droplet with the hydrate film is about 50% of carbon dioxide solubility at 1,500 m in depth and about 60% of carbon dioxide solubility at 1,000 m in depth.

고정 파이프라인에서 분사된 액체 이산화탄소 용해특성 연구 (Study on the Dissolution Characteristics of Liquid $CO_2$ Released by Fixed Pipeline)

  • 김남진;김종보
    • 설비공학논문집
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    • 제16권9호
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    • pp.863-871
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    • 2004
  • The use of fossil fuels like coal, oil and natural gases around the world causes an increase of the carbon dioxide content in the atmosphere. In order to reduce the concentration of the greenhouse gas, the idea of carbon dioxide sequestration in the ocean is proposed to be an effective mitigation strategy to counteract potential global warming due to the greenhouse effect. Therefore, in the present study, calculations of the dissolution behavior of carbon dioxide when liquid carbon dioxide is released at 1,000m and 1,500m in depth by fixed pipeline are performed. The results show that carbon dioxide droplets change to carbon dioxide bubbles in gas phase around 500m in depth, and the droplets are completely dissolved below 500 m in depth if the liquide carbon dioxide is released both at 1,000 m in depth with the initial diameter of 0.007m or less and at 1,500m in depth with the diameter of 0.011m or less.

Electrocatalytic Reduction of Carbon Dioxide on Sn-Pb Alloy Electrodes

  • Choi, Song Yi;Jeong, Soon Kwan;Park, Ki Tae
    • 한국기후변화학회지
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    • 제7권3호
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    • pp.231-236
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    • 2016
  • Electrocatalytic reduction can produce useful chemicals and fuels such as carbon monoxide, methane, formate, aldehydes, and alcohols using carbon dioxide, the green house gas, as a reactant through the supply of electrical energy. In this study, tin-lead (Sn-Pb) alloy electrodes are fabricated by electrodeposition on a carbon paper with different alloy composition and used as cathode for electrocatalytic reduction of carbon dioxide into formate in an aqueous system. The prepared electrodes are measured by Faradaic efficiency and partial current density for formate production. Electrocatalytic reduction experiments are carried out at -1.8 V (vs. Ag/AgCl) using H-type cell under ambient temperature and pressure and the gas and liquid products are analyzed by gas chromatograph and liquid chromatograph, respectively. As results, the Sn-Pb electrodes show higher Faradaic efficiency and partial current density than the single metal electrode. The Sn-Pb alloy electrode which have Sn:Pb molar ratio=2:1, shows the highest Faradaic efficiency of 88.7%.

Effect of PEO viscoelasticity on carbon dioxide absorption in aqueous PEO solution of AMP

  • Park Sang-Wook;Choi Byoung-Sik;Lee Jae-Wook
    • Korea-Australia Rheology Journal
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    • 제17권4호
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    • pp.199-205
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    • 2005
  • Carbon dioxide was absorbed into aqueous polyethylene oxide (PEO) solution containing AMP in a flat-stirred vessel to investigate the effect of non-Newtonian rheological behavior of PEO on the rate of chemical absorption of $CO_2$, where the reaction between $CO_2$ and AMP was assumed to be a first-order reaction with respect to the molar concentration of $CO_2$ and AMP respectively. The liquid-side mass transfer coefficient, which was obtained from the dimensionless empirical equation containing the properties of viscoelasticity of the non-Newtonian liquid, was used to estimate the enhancement factor due to chemical reaction. PEO with elastic property of non-Newtonian liquid made the rate of chemical absorption of $CO_2$ accelerate compared with Newtonian liquid based on the same viscosity of the solution.

극친수/극소수 표면에서 탄산용액의 기포 발생 촉진/억제 효과 분석 연구 (Effect of Promoting/Inhibiting Bubble Generation of Carbonate Solution on Superhydrophilic/Superhydrophobic Surfaces)

  • 이정원
    • 한국기계가공학회지
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    • 제21권7호
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    • pp.77-83
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    • 2022
  • When carbon dioxide in a liquid becomes supersaturated, carbon dioxide gas bubbles are generated in the liquid, and they ascend to the surface as they develop further. At this time, the inner wall of the cup with carbon gas attached is known as the entrapped gas cavity (EGS); once an EGS is established, it does not disappear and will continuously create carbon bubbles. This bubbling phenomenon can be activated or suppressed by changing the properties of the solid surface in contact with the carbonated liquid. In this study, the foaming of carbonated liquid is promoted or suppressed by modifying the wettability of the surface. A micro/nano surface structure is formed on the surface of an aluminum cup to produce a superhydrophilic surface, and a superhydrophobic surface similar to a lotus leaf is synthesized via fluorination. Experiment results show that the amount of carbon dioxide bubble generated differs significantly in the first few seconds depending on the surface, and that the amount of gas generated after it enters the stabilization period is the same regardless of the wettability of the cup surface.

Experimental Study of the Phase Equilibria for $CO_2$ in Liquified Natural Gas Components at 77-219K

  • Yun, Sang-Kook
    • International Journal of Air-Conditioning and Refrigeration
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    • 제11권2호
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    • pp.61-66
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    • 2003
  • In order to prevent roll-over and a rapid boil-off of LNG in tanks, the phase equilibria of carbon dioxide in liquefied natural gas components as binary mixtures at cryogenic temperatures have been experimentally measured using Fourier transform infrared spectroscopy in conjunction with a specially designed variable pressure/temperature cryostat cell (pathlength 2 mm; pressures up to 30 bar). Solid carbon dioxide has been found to be comparatively soluble in liquid nitrogen (3.25$\times$${10}^{-6}$ mole fraction), liquid methane (1.04$\times$${10}^{-4}$ mole fraction), liquid ethane (3.1$\times$${10}^{-2}$ mole fraction) and liquid propane (6.11$\times$${10}^{-2}$ mole fraction) at their normal boiling temperatures. The solubilities of carbon dioxide in various cryogens, which increased with increasing temperature, are much lower than those obtained by others using gas chromatography. The differences are attributed to infrared spectroscopy selectively measuring dissolved solute in situ whereas gas chromatography measures microscopic particulate solid in addition to dissolved solute.