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Assaf, S, Hassanain, M A and Abdallah, A (2018) Review and assessment of the causes of deficiencies in design documents for large construction projects. International Journal of Building Pathology and Adaptation, 36(03), 300–17.

Defoe, P S (2018) The consideration of trees in rights of light cases Part 2. International Journal of Building Pathology and Adaptation, 36(03), 318–32.

Gerges, M, Penn, S, Moore, D, Boothman, C and Liyanage, C (2018) Multi-storey residential buildings and occupant’s behaviour during fire evacuation in the UK. International Journal of Building Pathology and Adaptation, 36(03), 234–53.

Ofori-Boadu, A N, Abrokwah, R Y, Gbewonyo, S and Fini, E (2018) Effect of swine-waste bio-char on the water absorption characteristics of cement pastes. International Journal of Building Pathology and Adaptation, 36(03), 283–99.

• Type: Journal Article
• Keywords: Sustainability; Concrete; Cement; Bio-char; Swine-waste; Water absorption;
• ISBN/ISSN: 2398-4708
• URL: https://doi.org/10.1108/IJBPA-11-2017-0055
• Abstract:
  The purpose of this paper is to investigate the effect of an admixture, Swine-waste Bio-char (SB), on the water absorption characteristics of cement pastes. The effect of SB percentages, heat treatment temperatures, water/binder ratios, and age on the water absorption percentages (WAPs) of SB modified cement pastes were investigated using scanning electron microscopy-energy dispersive spectra, FTIR, Brunauer-Emmett-Teller, and laboratory experiments. The WAPs of cement pastes with SBs produced at the low treatment temperature (LTT) of 340°C and 400°C were significantly lower (p<0.01) than pastes with SBs produced at the high treatment temperature (HTT) of 600°C and 800°C. This was attributed primarily to the more dominant presence of hydrophobic alkyl surface groups from non-volatilized matter in LTT-SBs. This had also resulted in lower surface areas and pore volumes in LTT-SBs. As a result of the volatilization of these labile hydrophobic groups at HTT, HTT-SBs were more hydrophilic and had higher surface areas and pore volumes. Consequently, HTT-SB pastes had higher WAPs and no significant differences (p<0.05) existed between HTT-SB pastes and control pastes. Also, low water/binder ratios and aging reduced water absorption of SB modified cement pastes. LTT-SBs reduce water absorption and could reduce concrete deterioration; and as such, associated building repair, maintenance, and adaptation costs. Notably, reductions in concrete water absorption will extend the service life of concrete buildings and infrastructures, particularly in unfavorable environmental conditions. The observed benefits are tempered by the current lack of information on the effects of SB on compression strength, workability, and other durability properties. SB utilization in concrete buildings will enhance swine-waste disposal and reduce negative environmental impacts on swine farming communities; consequently, improving their quality of life. Current bio-char research is focused on plant-derived bio-char toward soil remediation and contaminant removal, with very limited applications in concrete. This research advances knowledge for developing livestock-derived bio-char, as a PCRM, toward more sustainable and durable concrete structures.

Simpson, E, Bradley, D and O’Keeffe, J (2018) Failure is an option: an innovative engineering curriculum. International Journal of Building Pathology and Adaptation, 36(03), 268–82.

Wang, W, Zhang, S and Pasquire, C (2018) Factors for the adoption of green building specifications in China. International Journal of Building Pathology and Adaptation, 36(03), 254–67.