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Journal Abstract Search

298 related items for PubMed ID: 22673363

  • 1. Calculating workplace WBGT from meteorological data: a tool for climate change assessment.
    Lemke B, Kjellstrom T.
    Ind Health; 2012; 50(4):267-78. PubMed ID: 22673363
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  • 2. Occupational heat stress assessment and protective strategies in the context of climate change.
    Gao C, Kuklane K, Östergren PO, Kjellstrom T.
    Int J Biometeorol; 2018 Mar; 62(3):359-371. PubMed ID: 28444505
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  • 3. Comparison of methods for estimating Wet-Bulb Globe Temperature index from standard meteorological measurements.
    Patel T, Mullen SP, Santee WR.
    Mil Med; 2013 Aug; 178(8):926-33. PubMed ID: 23929057
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  • 4. Estimated work ability in warm outdoor environments depends on the chosen heat stress assessment metric.
    Bröde P, Fiala D, Lemke B, Kjellstrom T.
    Int J Biometeorol; 2018 Mar; 62(3):331-345. PubMed ID: 28424950
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  • 9. Site-specific hourly resolution wet bulb globe temperature reconstruction from gridded daily resolution climate variables for planning climate change adaptation measures.
    Takakura J, Fujimori S, Takahashi K, Hijioka Y, Honda Y.
    Int J Biometeorol; 2019 Jun; 63(6):787-800. PubMed ID: 30798364
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  • 14. Applicability of Universal Thermal Climate Index (UTCI) in occupational heat stress assessment: a case study in brick industries.
    Vatani J, Golbabaei F, Dehghan SF, Yousefi A.
    Ind Health; 2016 Jun; 54(1):14-9. PubMed ID: 26320731
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  • 17. Assessment of the Australian Bureau of Meteorology wet bulb globe temperature model using weather station data.
    Grundstein A, Cooper E.
    Int J Biometeorol; 2018 Dec; 62(12):2205-2213. PubMed ID: 30280211
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  • 20. Methods for Estimating Wet Bulb Globe Temperature From Remote and Low-Cost Data: A Comparative Study in Central Alabama.
    Carter AW, Zaitchik BF, Gohlke JM, Wang S, Richardson MB.
    Geohealth; 2020 May; 4(5):e2019GH000231. PubMed ID: 32490302
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