2015
DOI: 10.5912/jcb662
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Industrial Application of Biological Self-healing Concrete: Challenges and Economical Feasibility

Abstract: Self-healing concrete has been scrutinized by several researchers and some industrial concrete producers in relation to the remediation of the occurrence of micro-cracks. Such cracks are a quite well known problem that can lead to corrosion of the steel reinforcement and thus to the possible failure of the entire concrete structure. The need to repair these cracks as soon as possible leads to maintenance costs which can be of the order of €130 (direct costs) per m3 of concrete. Recent scientific studies indi… Show more

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Cited by 117 publications
(46 citation statements)
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“…Silva et al calculated an operational expense cost (OPEX) of more than 400 € kg −1 of bioagent for the production of axenic ureolytic spores, a cost that was highly affected by the need for sterile production conditions . Nonaxenic (nonsterile) production of ureolytic bacterial spores would allow to reduce production costs.…”
Section: Self‐healing Bioconcretementioning
confidence: 99%
“…Silva et al calculated an operational expense cost (OPEX) of more than 400 € kg −1 of bioagent for the production of axenic ureolytic spores, a cost that was highly affected by the need for sterile production conditions . Nonaxenic (nonsterile) production of ureolytic bacterial spores would allow to reduce production costs.…”
Section: Self‐healing Bioconcretementioning
confidence: 99%
“…So far there has been little success with respect to the long-term healing efficacy and in-depth consolidation, mainly due to the limited survivability and calcinogenic ability of the bacteria. Furthermore, from the economical point of view, the production of bacteria-based self-healing concrete currently results in considerable costs due to the need of aseptic conditions to produce the microbial spores and the use of expensive growth media, making this approach unlikely to be applied in practical applications 33 . In summary, there are still huge challenges to bring an efficient self-healing product to the concrete market with the guaranty that this product can both attain legislative requirements and be costeffective.…”
Section: Fungi-mediated Self-healing Concretementioning
confidence: 99%
“…These factors cause microcracks formation, which affect mechanical and durability properties of concrete such as compressive strength, flexural strength, and permeability, consequently reducing the useful life of concrete and increasing the cost of the maintenance and repair of infrastructures. Although the global cost of concrete production ranges between e 60/m 3 to e 75/m 3 , the average cost for crack repair in Europe is about e 130/ m 3 (Silva et al, 2015), which reveals the high cost involved in the maintenance and repair of concrete structures. In the last two decades, incorporation of a bacterial metabolic process known as Microbially Induced Calcium Carbonate Precipitation (MICP) has emerged as an alternative method to reduce the cost and environmental impact.…”
Section: Introductionmentioning
confidence: 99%