SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313419612> ?p ?o ?g. }

Showing items 1 to 100 of ±169 with 100 items per page.

W4313419612 endingPage "121137" @default.
W4313419612 startingPage "121137" @default.
W4313419612 abstract "Agricultural and forestry waste biomasses have been widely used as adsorbents for environmental remediation with the advantages such as sustainability, economic efficiency, and excellent adsorption performance. A biochar-supported nano-Hydroxyapatite-modified carbonized rice husk ([email protected]) with high-efficiency and low-cost has been developed in our previous study. In this study, the effects of application condition parameters on the adsorption performance of [email protected] for Cr(VI) ions are further investigated. The results illustrate that 99.28 % Cr(VI) ions are removed at 50 °C, pH 2.0 with the adsorbent dosage of 5.0 g/L and the initial Cr(VI) ions concentration of 40 mg/L after adsorption equilibrium. The kinetic data is highly consistent with the pseudo-second-order model, indicating that the adsorption is mainly controlled by chemisorption. It also can be well-described by the the intra-particle diffusion model and Boyd’s film-diffusion kinetic model, indicating the external mass transport is a major process where particle diffusion is the rate-limiting step. Moreover, adsorption data is consistent with the Langmuir isotherm with an adsorption saturation capacity of 14.28 mg/g. It can be speculated that the adsorption mechanism includes physical adsorption, chemical adsorption, and ion exchange. Overall, the value of adsorption enthalpy change (ΔH) is 49.57 kJ/mol through thermodynamic calculations, which is over 40 kJ/mol, suggesting that the adsorption process is chemisorption, whcih is inherently spontaneous and exothermic, and the elevation of the temperature can result in the promotion of adsorption performance. It is anticipated that the composite of [email protected] with high adsorption capacity has the potential to be a newly developed adsorbent for Cr(VI) ions removal with a bright application prospect in environmental protection." @default.
W4313419612 created "2023-01-06" @default.
W4313419612 creator A5040561463 @default.
W4313419612 creator A5053491626 @default.
W4313419612 creator A5056519319 @default.
W4313419612 creator A5076117303 @default.
W4313419612 creator A5088048502 @default.
W4313419612 date "2023-02-01" @default.
W4313419612 modified "2023-09-27" @default.
W4313419612 title "Application of hydroxyapatite-modified carbonized rice husk for the adsorption of Cr(VI) from aqueous solution" @default.
W4313419612 cites W1032621232 @default.
W4313419612 cites W1975191685 @default.
W4313419612 cites W1977578675 @default.
W4313419612 cites W1983212398 @default.
W4313419612 cites W1984948467 @default.
W4313419612 cites W2006926093 @default.
W4313419612 cites W2007146152 @default.
W4313419612 cites W2021129374 @default.
W4313419612 cites W2024168500 @default.
W4313419612 cites W2024342951 @default.
W4313419612 cites W2031493035 @default.
W4313419612 cites W2033714061 @default.
W4313419612 cites W2038568952 @default.
W4313419612 cites W2044496304 @default.
W4313419612 cites W2046711717 @default.
W4313419612 cites W2047162313 @default.
W4313419612 cites W2049477761 @default.
W4313419612 cites W2068540555 @default.
W4313419612 cites W2076906273 @default.
W4313419612 cites W2078452250 @default.
W4313419612 cites W2079164870 @default.
W4313419612 cites W2096318997 @default.
W4313419612 cites W2129152947 @default.
W4313419612 cites W2150544267 @default.
W4313419612 cites W2167150586 @default.
W4313419612 cites W2179228544 @default.
W4313419612 cites W2236136268 @default.
W4313419612 cites W2253533822 @default.
W4313419612 cites W2288715902 @default.
W4313419612 cites W2322693762 @default.
W4313419612 cites W2323328544 @default.
W4313419612 cites W2532065167 @default.
W4313419612 cites W2562823998 @default.
W4313419612 cites W2563140836 @default.
W4313419612 cites W2563444521 @default.
W4313419612 cites W2568727652 @default.
W4313419612 cites W2592440160 @default.
W4313419612 cites W2593386624 @default.
W4313419612 cites W2593612853 @default.
W4313419612 cites W2605391417 @default.
W4313419612 cites W2618566695 @default.
W4313419612 cites W2738830302 @default.
W4313419612 cites W2767937450 @default.
W4313419612 cites W2769161837 @default.
W4313419612 cites W2770385631 @default.
W4313419612 cites W2790259186 @default.
W4313419612 cites W2793054103 @default.
W4313419612 cites W2793984610 @default.
W4313419612 cites W2796707825 @default.
W4313419612 cites W2799937872 @default.
W4313419612 cites W2806502770 @default.
W4313419612 cites W2809387583 @default.
W4313419612 cites W2883121095 @default.
W4313419612 cites W2891796380 @default.
W4313419612 cites W2894460848 @default.
W4313419612 cites W2901373056 @default.
W4313419612 cites W2902194563 @default.
W4313419612 cites W2910143317 @default.
W4313419612 cites W2938849145 @default.
W4313419612 cites W2940354432 @default.
W4313419612 cites W2944052358 @default.
W4313419612 cites W2953017648 @default.
W4313419612 cites W2953698368 @default.
W4313419612 cites W2959820759 @default.
W4313419612 cites W2965861684 @default.
W4313419612 cites W2966003809 @default.
W4313419612 cites W2966629400 @default.
W4313419612 cites W2983111017 @default.
W4313419612 cites W2986097905 @default.
W4313419612 cites W2995994731 @default.
W4313419612 cites W3039225761 @default.
W4313419612 cites W3044323247 @default.
W4313419612 cites W3086013210 @default.
W4313419612 cites W3124121230 @default.
W4313419612 cites W3156310171 @default.
W4313419612 cites W3185971573 @default.
W4313419612 cites W3186841096 @default.
W4313419612 cites W4252686934 @default.
W4313419612 cites W4312402750 @default.
W4313419612 doi "https://doi.org/10.1016/j.molliq.2022.121137" @default.
W4313419612 hasPublicationYear "2023" @default.
W4313419612 type Work @default.
W4313419612 citedByCount "2" @default.
W4313419612 countsByYear W43134196122023 @default.
W4313419612 crossrefType "journal-article" @default.
W4313419612 hasAuthorship W4313419612A5040561463 @default.
W4313419612 hasAuthorship W4313419612A5053491626 @default.
W4313419612 hasAuthorship W4313419612A5056519319 @default.