Moisture Control Capacity of Geopolymer Composites: Correlation of the Bulk Composition–Pore Network with the Absorption–Desorption Behavior

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • E. Kamseu
  • H. Mohamed
  • J. C. Sofack
  • Duangrudee Chaysuwan
  • H. K. Tchakoute
  • J. N.Y. Djobo
  • S. Rossignol
  • C. Leonelli

Externe Organisationen

  • University of Modena and Reggio Emilia
  • Ministry of Scientific Research and Innovation-Cameroon
  • Kasetsart University
  • University of Yaounde I
  • Centre national de la recherche scientifique (CNRS)
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Details

OriginalspracheEnglisch
Seiten (von - bis)77-95
Seitenumfang19
FachzeitschriftTransport in porous media
Jahrgang122
Ausgabenummer1
Frühes Online-Datum28 Dez. 2017
PublikationsstatusVeröffentlicht - März 2018
Extern publiziertJa

Abstract

Abstract: Porous composites with the principal class of porosity in the range of those presented in the literature as ideal for the moisture control capacity of building environment are described. In the course of the design of the matrices, micrometric pores are introduced to give to the pore systems a bi- or multimodal characters with the aim of improving the phases percolation during the course of desorption and make the moisture accumulation–desorption behavior of the porous composites essentially function of weather and environment. The porous composites present size of pores in the range 0.001-1μm for the gel pores and peak centered at 10μm for the micrometric pores which insure the matrices efficiency in moisture control capacity and durability. The results of cycles of moisture absorption–desorption in the course of various seasons of the year permit to identify the activities of gel pores meanly efficient in the extreme environment: absorption when the temperature is under 11∘C; relative humidity is >60% and desorption when the temperature is above 18∘C. At ambient conditions, the pores more active are micrometric pores, while gel pores enter in activity only in the extreme environment conditions. The proposed porous geopolymer composites appeared promising candidates for the management of the moisture while improving the thermal insulation of residential building particularly in the regions with important fluctuation of weather. The use of geopolymerization process for the production of those porous composites, the choice of recycling industrial and municipal inorganic wastes appears ideal solution, environmentally friendly, eco-efficient and sustainable for the design of newly materials for the moisture control capacity in building environment. Graphical Abstract: [Figure not available: see fulltext.].

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Moisture Control Capacity of Geopolymer Composites: Correlation of the Bulk Composition–Pore Network with the Absorption–Desorption Behavior. / Kamseu, E.; Mohamed, H.; Sofack, J. C. et al.
in: Transport in porous media, Jahrgang 122, Nr. 1, 03.2018, S. 77-95.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Kamseu, E, Mohamed, H, Sofack, JC, Chaysuwan, D, Tchakoute, HK, Djobo, JNY, Rossignol, S & Leonelli, C 2018, 'Moisture Control Capacity of Geopolymer Composites: Correlation of the Bulk Composition–Pore Network with the Absorption–Desorption Behavior', Transport in porous media, Jg. 122, Nr. 1, S. 77-95. https://doi.org/10.1007/s11242-017-0990-1
Kamseu, E., Mohamed, H., Sofack, J. C., Chaysuwan, D., Tchakoute, H. K., Djobo, J. N. Y., Rossignol, S., & Leonelli, C. (2018). Moisture Control Capacity of Geopolymer Composites: Correlation of the Bulk Composition–Pore Network with the Absorption–Desorption Behavior. Transport in porous media, 122(1), 77-95. https://doi.org/10.1007/s11242-017-0990-1
Kamseu E, Mohamed H, Sofack JC, Chaysuwan D, Tchakoute HK, Djobo JNY et al. Moisture Control Capacity of Geopolymer Composites: Correlation of the Bulk Composition–Pore Network with the Absorption–Desorption Behavior. Transport in porous media. 2018 Mär;122(1):77-95. Epub 2017 Dez 28. doi: 10.1007/s11242-017-0990-1
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title = "Moisture Control Capacity of Geopolymer Composites: Correlation of the Bulk Composition–Pore Network with the Absorption–Desorption Behavior",
abstract = "Abstract: Porous composites with the principal class of porosity in the range of those presented in the literature as ideal for the moisture control capacity of building environment are described. In the course of the design of the matrices, micrometric pores are introduced to give to the pore systems a bi- or multimodal characters with the aim of improving the phases percolation during the course of desorption and make the moisture accumulation–desorption behavior of the porous composites essentially function of weather and environment. The porous composites present size of pores in the range 0.001-1μm for the gel pores and peak centered at 10μm for the micrometric pores which insure the matrices efficiency in moisture control capacity and durability. The results of cycles of moisture absorption–desorption in the course of various seasons of the year permit to identify the activities of gel pores meanly efficient in the extreme environment: absorption when the temperature is under 11∘C; relative humidity is >60% and desorption when the temperature is above 18∘C. At ambient conditions, the pores more active are micrometric pores, while gel pores enter in activity only in the extreme environment conditions. The proposed porous geopolymer composites appeared promising candidates for the management of the moisture while improving the thermal insulation of residential building particularly in the regions with important fluctuation of weather. The use of geopolymerization process for the production of those porous composites, the choice of recycling industrial and municipal inorganic wastes appears ideal solution, environmentally friendly, eco-efficient and sustainable for the design of newly materials for the moisture control capacity in building environment. Graphical Abstract: [Figure not available: see fulltext.].",
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note = "Funding Information: Acknowledgements We acknowledge the laboratory Ingessil Srl Verona for providing the sodium silicate used for the samples preparation. The research grants received from Universitary Agency of Francophony (AUF) and the Academy of Science for the third world (TWAS) to the principal investigator Dr. Elie Kamseu are also acknowledged.",
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TY - JOUR

T1 - Moisture Control Capacity of Geopolymer Composites

T2 - Correlation of the Bulk Composition–Pore Network with the Absorption–Desorption Behavior

AU - Kamseu, E.

AU - Mohamed, H.

AU - Sofack, J. C.

AU - Chaysuwan, Duangrudee

AU - Tchakoute, H. K.

AU - Djobo, J. N.Y.

AU - Rossignol, S.

AU - Leonelli, C.

N1 - Funding Information: Acknowledgements We acknowledge the laboratory Ingessil Srl Verona for providing the sodium silicate used for the samples preparation. The research grants received from Universitary Agency of Francophony (AUF) and the Academy of Science for the third world (TWAS) to the principal investigator Dr. Elie Kamseu are also acknowledged.

PY - 2018/3

Y1 - 2018/3

N2 - Abstract: Porous composites with the principal class of porosity in the range of those presented in the literature as ideal for the moisture control capacity of building environment are described. In the course of the design of the matrices, micrometric pores are introduced to give to the pore systems a bi- or multimodal characters with the aim of improving the phases percolation during the course of desorption and make the moisture accumulation–desorption behavior of the porous composites essentially function of weather and environment. The porous composites present size of pores in the range 0.001-1μm for the gel pores and peak centered at 10μm for the micrometric pores which insure the matrices efficiency in moisture control capacity and durability. The results of cycles of moisture absorption–desorption in the course of various seasons of the year permit to identify the activities of gel pores meanly efficient in the extreme environment: absorption when the temperature is under 11∘C; relative humidity is >60% and desorption when the temperature is above 18∘C. At ambient conditions, the pores more active are micrometric pores, while gel pores enter in activity only in the extreme environment conditions. The proposed porous geopolymer composites appeared promising candidates for the management of the moisture while improving the thermal insulation of residential building particularly in the regions with important fluctuation of weather. The use of geopolymerization process for the production of those porous composites, the choice of recycling industrial and municipal inorganic wastes appears ideal solution, environmentally friendly, eco-efficient and sustainable for the design of newly materials for the moisture control capacity in building environment. Graphical Abstract: [Figure not available: see fulltext.].

AB - Abstract: Porous composites with the principal class of porosity in the range of those presented in the literature as ideal for the moisture control capacity of building environment are described. In the course of the design of the matrices, micrometric pores are introduced to give to the pore systems a bi- or multimodal characters with the aim of improving the phases percolation during the course of desorption and make the moisture accumulation–desorption behavior of the porous composites essentially function of weather and environment. The porous composites present size of pores in the range 0.001-1μm for the gel pores and peak centered at 10μm for the micrometric pores which insure the matrices efficiency in moisture control capacity and durability. The results of cycles of moisture absorption–desorption in the course of various seasons of the year permit to identify the activities of gel pores meanly efficient in the extreme environment: absorption when the temperature is under 11∘C; relative humidity is >60% and desorption when the temperature is above 18∘C. At ambient conditions, the pores more active are micrometric pores, while gel pores enter in activity only in the extreme environment conditions. The proposed porous geopolymer composites appeared promising candidates for the management of the moisture while improving the thermal insulation of residential building particularly in the regions with important fluctuation of weather. The use of geopolymerization process for the production of those porous composites, the choice of recycling industrial and municipal inorganic wastes appears ideal solution, environmentally friendly, eco-efficient and sustainable for the design of newly materials for the moisture control capacity in building environment. Graphical Abstract: [Figure not available: see fulltext.].

KW - Absorption–desorption

KW - Gel pores

KW - Moisture control capacity

KW - Porous geopolymer composites

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DO - 10.1007/s11242-017-0990-1

M3 - Article

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VL - 122

SP - 77

EP - 95

JO - Transport in porous media

JF - Transport in porous media

SN - 0169-3913

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