Abstract
For the production of geopolymer concrete (GPC), fly-ash (FA) like waste material has been effectively utilized by various researchers. In this paper, the soft computing techniques known as gene expression programming (GEP) are executed to deliver an empirical equation to estimate the compressive strength of GPC made by employing FA. To build a model, a consistent, extensive and reliable data base is compiled through a detailed review of the published research. The compiled data set is comprised of 298 experimental results. The utmost dominant parameters are counted as explanatory variables, in other words, the extra water added as percent FA (), the percentage of plasticizer (), the initial curing temperature (), the age of the specimen (), the curing duration (), the fine aggregate to total aggregate ratio (), the percentage of total aggregate by volume (), the percent SiO2 solids to water ratio () in sodium silicate (Na2SiO3) solution, the NaOH solution molarity (), the activator or alkali to FA ratio (), the sodium oxide (Na2O) to water ratio () for preparing Na2SiO3 solution, and the Na2SiO3 to NaOH ratio (). A GEP empirical equation is proposed to estimate the of GPC made with FA. The accuracy, generalization, and prediction capability of the proposed model was evaluated by performing parametric analysis, applying statistical checks, and then compared with non-linear and linear regression equations.
Highlights
Fly ash (FA) is the unburned leftover residue from thermal coal plants [1]
This paper considers a wide range comprehensive data base consisting of techniques, such as fuzzy logic, adaptive fuzzy interface system (ANFIS), response surface ten explanatory parameters for modelling the compressive strength of geopolymer concrete methodology (RSM), support vector machine (SVM) analysis, random forest regression made with wasted fly-ash
The projected gene expression programming (GEP) model is empirical and is built on the broadly distributed database, consisting of different parameters, that comes from the published literature
Summary
Fly ash (FA) is the unburned leftover residue from thermal coal plants [1]. Which is transported by gases emitted from the burning zone in the boiler. Around 375 million tons of FA is produced throughout the globe, with a disposal cost as high as $20–$40 per ton [3]. It is dumped into landfills in sub-urban areas [4]. The hazardous materials in FA like silica, alumina, and oxides such as a ferric oxide (Fe2 O3 ) are intervening factors in water, soil, and air pollution. This leads to health issues and different geo-environmental problems [6,7]. Causing physiological disorders and other related health issues like cancer, hepatic disorder, anemia, dermatitis, and gastroenteritis
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
