• Title/Summary/Keyword: reverse-flow cyclone

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Emission Control of Fine Dust from Gas-Solid Cyclone (PoC 부착 싸이클론의 미세분진 유출 제어에 관한 연구)

  • 조영민
    • Journal of Korean Society for Atmospheric Environment
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    • v.15 no.2
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    • pp.201-210
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    • 1999
  • Cyclones have been extensively used in the industry for removing fine particles from the gaseous streams, based on simplicity in design and construction in association with low cost and flexibility to operate in extreme and harsh environments. However, industrial cyclones are typically not very efficient for particles smaller than 10μm. In this work, in order to improve the separation efficiency of reverse flow cyclones, a simple device named Post Cyclone(Poc) in installed on the top of an existing cyclone. Thereby the residual swirl present at the outlet (vortex finder) of a conventional cyclone has been used to capture the escaped dust from the cyclone in the PoC. The performance of PoC was closely evaluated by changing configuration of the PoC and operation condition. In addition, the dust behaviour in th PoC was investigated based on the hypothesis of residual vortex.

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Flow Analysis within a Small Reverse Flow Cyclone

  • R. B Xiang;Lee, K. W.
    • Proceedings of the Korea Air Pollution Research Association Conference
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    • 2003.05b
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    • pp.277-278
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    • 2003
  • Cyclone separators are widely used for cleaning gas streams or for catalyst recovery. For many years, the complexity of the gas flow pattern in cyclones has been a matter of many experimental and theoretical work. At present, precise flow measurements have been performed by means of LDA and hot-wire anemometry (Patterson and Munz, 1996; Hoekstra et al., 1999; Peng et al., 2002). In the theoretical work, Computational fluid dynamics (CFD) codes are frequently employed for simulating cyclone gas-particle flows(Hoekstra et al., 1999). (omitted)

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Simultaneous Control of Dust and Gases Using a Double Centrifugal Device (이중 원심력 집진장치를 이용한 분진-가스 동시 처리)

  • Jang, Jung-Hee;Lee, Ju-Heon;Jo, Young-Min
    • Journal of Korean Society for Atmospheric Environment
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    • v.24 no.3
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    • pp.336-345
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    • 2008
  • A large volume of work has been attempted to improve the separation efficiency of cyclone by establishing new design and optimum operation. An auxiliary device called Post Cyclone (PoC) has been introduced and tested in an earlier work (In order to reduce the emission of fine dust from the reverse flow cyclones). This work applies the PoC to remove the dust and gaseous elements using a centrifugal effect remained in the discharging flow over the cyclone. As a result of the experiment, the efficiency was found best at the high gas concentration and low inlet velocity.

Humidification of Air Using Water Injector and Cyclonic Separator (관 내 삽입 인젝터와 사이클론을 이용한 공기 가습)

  • Kim, Beom-Jun;Kim, Sung-Il;Byun, Su-Young;Kim, Min-Soo;Kim, Hyun-Yoo;Kwon, Hyuck-Ryul
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.34 no.5
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    • pp.491-498
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    • 2010
  • Humidification of PEM fuel cells is necessary for enhancing their performance and lifetime. In this study, a humidification system was designed and tested; the system includes an air-supply tube (inner diameter: 75 mm) through which a nozzle can be directly inserted and a cyclonic separator for the removal of water droplets. Three types of nozzles were employed to study the influence of injection pressure, air flow rate, and spray direction on the humidification performance. To evaluate the humidification performance, the concept of humidification efficiency was defined. In the absence of an external heat source, latent heat for evaporation will be supplied by the own enthalpies of water and air. Thus, the amount of water sprayed from the nozzle is the most critical factor affecting the humidification efficiency. Water droplets were efficiently removed by a cyclonic separator, but re-entrainment occurred at high air flow rates. The absolute humidity and humidification efficiency were $21.29\;kJ/kg_{da}$ and 86.57%, respectively, under the following conditions: nozzle type PJ24; spray direction angle $90^{\circ}$; injection pressure 1200 kPa; air flow rate 6000 Nlpm.