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W4385383233 endingPage "100543" @default.
W4385383233 startingPage "100543" @default.
W4385383233 abstract "In this research, halloysite nanotube was studied as a natural adsorbent for CO2 capture. The sorbents were prepared by the impregnation of several amounts of tetraethylenepentamine (TEPA) (10, 20, 30, and 40 wt %) on IMSiNTs support. Carbon dioxide adsorption was studied with the help of artificial neural network modeling and response surface methodology, and the effects of parameters were determined. Using the surface response method (RSM) simulation technique, the model obtained a suitable orientation to optimize the effective parameters in the process to select the best combination of operating conditions, and the adsorption capacity was measured in the temperature range of 20∼50 °C and at pressures of 1∼9 bar via tetraethylenepentamine (TEPA)-functionalized pristine nanotubes of halloysite (HNTs). Artificial neural network modeling was used to predict the adsorption process. The multi-layer perceptron (MLP) and radial-based function (RBF) models using different algorithms were investigated. According to the optimization process of the neurons in the MLP structure, the number of neurons in the first hidden layer was 25, and in the second hidden layer was 5. In addition, in RBF, there was a single hidden layer in which the number of neurons was 30. Response surfaces were created using the central composite design and a correlation coefficient of 0.992 based on a quadratic model was used. The CO2 capture experimental and simulation results were found to agree competently. A value of 9.3041 mmol/g at 9 bar and the temperature of 20°C resulted in the maximum amount of CO2 adsorption capacity." @default.
W4385383233 created "2023-07-30" @default.
W4385383233 creator A5041433990 @default.
W4385383233 creator A5043625564 @default.
W4385383233 creator A5070739159 @default.
W4385383233 creator A5071414031 @default.
W4385383233 date "2023-11-01" @default.
W4385383233 modified "2023-10-16" @default.
W4385383233 title "Using halloysite nanotubes modified by tetraethylenepentamine for advanced carbon capture: Experimental and modeling via RSM and ANNs" @default.
W4385383233 cites W1978962631 @default.
W4385383233 cites W1993474535 @default.
W4385383233 cites W2001642773 @default.
W4385383233 cites W2005279726 @default.
W4385383233 cites W2013547400 @default.
W4385383233 cites W2018425409 @default.
W4385383233 cites W2019832034 @default.
W4385383233 cites W2021571224 @default.
W4385383233 cites W2024781209 @default.
W4385383233 cites W2027053970 @default.
W4385383233 cites W2032266946 @default.
W4385383233 cites W2050999277 @default.
W4385383233 cites W2054279191 @default.
W4385383233 cites W2056003475 @default.
W4385383233 cites W2056432764 @default.
W4385383233 cites W2060721767 @default.
W4385383233 cites W2061735499 @default.
W4385383233 cites W2066225965 @default.
W4385383233 cites W2069134944 @default.
W4385383233 cites W2088674046 @default.
W4385383233 cites W2132656327 @default.
W4385383233 cites W2151774824 @default.
W4385383233 cites W2153391743 @default.
W4385383233 cites W2167715020 @default.
W4385383233 cites W2308624625 @default.
W4385383233 cites W2312822505 @default.
W4385383233 cites W2318834309 @default.
W4385383233 cites W2320366173 @default.
W4385383233 cites W2320801998 @default.
W4385383233 cites W2324027338 @default.
W4385383233 cites W2333200482 @default.
W4385383233 cites W2345069511 @default.
W4385383233 cites W2495755093 @default.
W4385383233 cites W2560924056 @default.
W4385383233 cites W2583736532 @default.
W4385383233 cites W2604815790 @default.
W4385383233 cites W2607412255 @default.
W4385383233 cites W2615149333 @default.
W4385383233 cites W2725074710 @default.
W4385383233 cites W2725566319 @default.
W4385383233 cites W2763200136 @default.
W4385383233 cites W2766293186 @default.
W4385383233 cites W2770194923 @default.
W4385383233 cites W2774246659 @default.
W4385383233 cites W2790453971 @default.
W4385383233 cites W2810606560 @default.
W4385383233 cites W2810743723 @default.
W4385383233 cites W2883525495 @default.
W4385383233 cites W2891094646 @default.
W4385383233 cites W2901113984 @default.
W4385383233 cites W2916999780 @default.
W4385383233 cites W2920944222 @default.
W4385383233 cites W2929682387 @default.
W4385383233 cites W2943816606 @default.
W4385383233 cites W2947633363 @default.
W4385383233 cites W2964222530 @default.
W4385383233 cites W2964431654 @default.
W4385383233 cites W2971969050 @default.
W4385383233 cites W2977437824 @default.
W4385383233 cites W2989446826 @default.
W4385383233 cites W3006505164 @default.
W4385383233 cites W3014179099 @default.
W4385383233 cites W3015585889 @default.
W4385383233 cites W3087570789 @default.
W4385383233 cites W3096114937 @default.
W4385383233 cites W3133625013 @default.
W4385383233 cites W3134489714 @default.
W4385383233 cites W3157983468 @default.
W4385383233 cites W3216669819 @default.
W4385383233 cites W4200134980 @default.
W4385383233 cites W4200256790 @default.
W4385383233 cites W4220721300 @default.
W4385383233 cites W4226065603 @default.
W4385383233 cites W4307446615 @default.
W4385383233 cites W4313529217 @default.
W4385383233 cites W4319066294 @default.
W4385383233 cites W4320717078 @default.
W4385383233 cites W4353048405 @default.
W4385383233 cites W4378469509 @default.
W4385383233 cites W867644752 @default.
W4385383233 doi "https://doi.org/10.1016/j.ceja.2023.100543" @default.
W4385383233 hasPublicationYear "2023" @default.
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