연구동향 분석

마그네슘 부유 분진의 입자 체류시간과 발화온도

한우섭(Ou-Sup Han) 2015년

논문상세정보
인용/피인용
' 마그네슘 부유 분진의 입자 체류시간과 발화온도' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • 초, 유지, 석유, 가스공학
  • magnesiumparticles
  • minimum ignition temperature
  • residence time
  • terminal velocity
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
137 0

0.0%

' 마그네슘 부유 분진의 입자 체류시간과 발화온도' 의 참고문헌

  • 마그네슘 분진의 열분해 및 발화온도 특성
    한우섭 한국가스학회지 17 (5) : 69 ~ 74 [2013]
  • Study of ignition temperature of a polyethylene dust cloud
    M. Mittal Fire Mater 20 : 97 ~ 105 [1996]
  • Settling velocities of particulate system
    Concha F. J. Powder Particle 27 : 18 ~ 37 [2009]
  • Rika Nenpyo (Chronological Scientific Tables), 87th ed
  • On the minimum ignition temperature of dust clouds
    U. Krause Proceedings of Sixth International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosion, vol. I 1 : 68 ~ 76 [2006]
  • Models for minimum ignition temperature of organic dust clouds
    M. Mittal Chem. Eng. Technol. 20 : 53 ~ 62 [1997]
  • Ignitability characteristics of aluminium and magnesium dusts that are generated during the shredding of post-consumer wastes
    M. Nifuku J. Loss Prev. Process Ind 20 : 322 ~ 329 [2007]
  • IEC 61241-2-1-1994, Methods for Determining the Minimum Ignition Temperatures of Dust. Part 2: Dust Cloud in a Furnace at a Constant Temperature, Central Office of International Electrotechnical Commission, Geneva, Switzerland, 11-27
    [1994]
  • Fluid mechanics of environmental interfaces
    Gultieri C Taylor & Francis [2012]
  • Experiment- based fire and explosion risk analysis for powdered magnesium production methods
    G. Li J. Loss Prev. Process Ind 21 : 461 ~ 465 [2008]
  • Dust explosions and fires
    Palmer, K. N. Chapman and Hall : 42 ~ 111 [1973]
  • Dust Explosions in the process industries (3rd ed.)
    Eckhoff, R. K. Gulf Professional Publishing [2003]
  • Drag coefficient of flow around a sphere : matching asymptotically the wide trend
    Almedeij J. Powder Technol 186 (3) : 218 ~ 223 [2008]