Self-Healing Concrete: Concepts, Energy Saving and Sustainability

Abstract: The production of cement accounts for 5 to 7% of carbon dioxide emissions in the world, and its broad-scale use contributes to climate imbalance. As a solution, biotechnology enables the cultivation of bacteria and fungi for the synthesis of calcium carbonate as one of the main constituents of cement. Through biomineralization, which is the initial driving force for the synthesis of compounds compatible with concrete, and crystallization, these compounds can be delivered to cracks in concrete. Microencapsulati… Show more

“…Calcite is preferable for bacteria-based self-generating concrete due to its greater thermodynamic stability. The different pathways by which microorganisms are able to produce calcium carbonate are broadly classified as autotrophic or heterotrophic [8,9]. The heterotrophic group includes the oxidation of organic salts such as calcium lactate, which is the simplest and safest pathway (Equation ( 1)):…”

“…In cases related to bridges, temperature changes can cause structure thermal expansion, which generates the need for periodic maintenance. Promising investigations regarding self-healing concrete are being carried out with the aim of creating possibilities for eco-sustainable and energy-efficient ways to seal cracks in concrete [8].…”

Simulation Study of Hydrodynamic Conditions in Reaction Cell for Cement Biomineralization Using Factorial Design and Computational Fluid Dynamics: Prospects for Increased Useful Life of Concrete Structures and Energetic/Environmental Benefits

“…Calcite is preferable for bacteria-based self-generating concrete due to its greater thermodynamic stability. The different pathways by which microorganisms are able to produce calcium carbonate are broadly classified as autotrophic or heterotrophic [8,9]. The heterotrophic group includes the oxidation of organic salts such as calcium lactate, which is the simplest and safest pathway (Equation ( 1)):…”

“…In cases related to bridges, temperature changes can cause structure thermal expansion, which generates the need for periodic maintenance. Promising investigations regarding self-healing concrete are being carried out with the aim of creating possibilities for eco-sustainable and energy-efficient ways to seal cracks in concrete [8].…”

Simulation Study of Hydrodynamic Conditions in Reaction Cell for Cement Biomineralization Using Factorial Design and Computational Fluid Dynamics: Prospects for Increased Useful Life of Concrete Structures and Energetic/Environmental Benefits

Smart sustainable concrete materials and structures

Physio-mechanical and micro-structural properties of cost-effective waste eggshell-based self-healing bacterial concrete