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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

249 related items for PubMed ID: 37515535

  • 1. Using Fume Hood to Reduce Nurses' Exposure to Particulate Matters Dispersed Into the Air During Pill Crushing.
    Amiri A, Guess L, Gilder R, Showalter D, Hart L, Sattler B.
    Workplace Health Saf; 2023 Sep; 71(9):412-418. PubMed ID: 37515535
    [Abstract] [Full Text] [Related]

  • 2. Dynamic effects on containment of air-curtain fume hood operated with heat source.
    Chen JK, Huang RF, Hsin PY.
    J Occup Environ Hyg; 2012 Sep; 9(11):640-52. PubMed ID: 23009207
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  • 3. Flow and containment characteristics of a sash-less, variable-height inclined air-curtain fume hood.
    Huang RF, Chen JK, Hung WL.
    Ann Occup Hyg; 2013 Aug; 57(7):934-52. PubMed ID: 23519947
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  • 4. Evaluation of leakage from fume hoods using tracer gas, tracer nanoparticles and nanopowder handling test methodologies.
    Dunn KH, Tsai CS, Woskie SR, Bennett JS, Garcia A, Ellenbecker MJ.
    J Occup Environ Hyg; 2014 Aug; 11(10):D164-73. PubMed ID: 25175285
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  • 6. Installation of a flow control device in an inclined air-curtain fume hood to control wake-induced exposure.
    Chen JK.
    J Occup Environ Hyg; 2016 Aug; 13(8):588-97. PubMed ID: 26950527
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  • 7. Estimation of leakage rate of air from a fume hood in a radioisotope laboratory using CFD simulations.
    Kim S, Yang H.
    Appl Radiat Isot; 2018 Oct; 140():300-304. PubMed ID: 30099249
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  • 8. Influence of high heat load on flow and containment of an inclined air-curtain (IAC) fume hood.
    Huang RF, Hsu CM, Lin KL.
    J Occup Environ Hyg; 2018 Apr; 15(4):322-333. PubMed ID: 29341853
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  • 12. Decontamination of a technetium contaminated fume hood in a research laboratory.
    O'Dou TJ, Bertoia J, Czerwinski KR.
    Health Phys; 2011 Aug; 101 Suppl 2():S124-30. PubMed ID: 21709494
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  • 13. Effects of walk-by and sash movement on contaminant leakage of air curtain-isolated fume hood.
    Huang RF, Chen HD, Hung CH.
    Ind Health; 2007 Dec; 45(6):804-16. PubMed ID: 18212476
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  • 15. A review of published quantitative experimental studies on factors affecting laboratory fume hood performance.
    Ahn K, Woskie S, DiBerardinis L, Ellenbecker M.
    J Occup Environ Hyg; 2008 Nov; 5(11):735-53. PubMed ID: 18780237
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  • 16. Vortex ventilation in the laboratory environment.
    Meisenzahl LR.
    J Occup Environ Hyg; 2014 Nov; 11(10):672-9. PubMed ID: 25175282
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  • 17. Effects of boundary-layer separation controllers on a desktop fume hood.
    Huang RF, Chen JK, Hsu CM, Hung SF.
    J Occup Environ Hyg; 2016 Oct 02; 13(10):802-15. PubMed ID: 27104797
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  • 18. Airborne nanoparticle exposures while using constant-flow, constant-velocity, and air-curtain-isolated fume hoods.
    Tsai SJ, Huang RF, Ellenbecker MJ.
    Ann Occup Hyg; 2010 Jan 02; 54(1):78-87. PubMed ID: 19933309
    [Abstract] [Full Text] [Related]

  • 19. Mitigation strategies to reduce particulate matter concentrations in civil engineering laboratories.
    Zumrut IB, Kale OA, Tetik YO, Baradan S.
    Environ Sci Pollut Res Int; 2024 Feb 02; 31(8):12340-12350. PubMed ID: 38231331
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  • 20. Exposure to respirable particulates and silica in and around the stone crushing units in central India.
    Mukhopadhyay K, Ramalingam A, Ramani R, Dasu V, Sadasivam A, Kumar P, Prasad SN, Sambandam S, Balakrishnan K.
    Ind Health; 2011 Feb 02; 49(2):221-7. PubMed ID: 21173527
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