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    • Review: found
    Is Open Access

    Review of 'Moisture Buffering and Mold Growth Characteristics of Naturally Ventilated Lime Plastered Houses.'

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    Inviter role(s): EDITOR
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    Moisture Buffering and Mold Growth Characteristics of Naturally Ventilated Lime Plastered Houses.Crossref
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    Reviewed article

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    • Article: found
    Is Open Access

    Moisture Buffering and Mold Growth Characteristics of Naturally Ventilated Lime Plastered Houses.

    Vismaya Paralkar, Rashmin Damle (2023)
    Lime plaster is well known for its moisture buffering capabilities but is also susceptible to mould growth. This work focusses on the hygrothermal performance of lime plaster in naturally ventilated residential spaces. Surveys are carried out for 45 traditional buildings of Ahmedabad in India with measurements of ambient variables, such as temperature, relative humidity, wall moisture content, etc. Mould growth patterns of these spaces are related to the measured variables and wall characteristics. Hygrothermal simulations of some spaces are also carried out to observe the moisture buffering of lime plaster. Experimental observations are contrasted with simulation results to see if numerical predictions are realistic.
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    Preprint version 3 (Latest)
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      Review information

      DOI:: 10.14293/S2199-1006.1.SOR-EARTH.A7VENQ.v1.RBOGSJ
      License:
      This work has been published open access under Creative Commons Attribution License CC BY 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Conditions, terms of use and publishing policy can be found at www.scienceopen.com.

      ScienceOpen disciplines: Environmental studies
      Keywords: Lime plaster; Hygrothermal simulations; mould growth; surface relative humidity conditions.,Energy and health

      Review text

      The authors have made most of the suggested corrections and the manuscript has considerably improved, but it is still unclear how the different methods relate to each other and contribute to the result. 

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      Version and Review History
      1
      Preprint version 3
      Reviewed by Duygu Ergenç
      1
      Preprint version 2
      Reviewed by Yasemin Didem Aktas
      2
      Preprint version 1
      Reviewed by Jalaluddin AhmedReviewed by Duygu Ergenç