Fluoride adsorption on hydroxyapatite: From batch to continuous operation

被引：6

作者：

Russo, Vincenzo ^{[1
]}

'Angelo, Antonio ^{[1
]}

Salvi, Clorinda ^{[1
]}

Paparo, Rosanna ^{[1
]}

Fortunato, Michele Emanuele ^{[1
]}

Cepollaro, Elisabetta Maria ^{[2
]}

Tarallo, Oreste ^{[1
]}

Trifuoggi, Marco ^{[1
]}

Di Serio, Martino ^{[1
]}

Tesser, Riccardo ^{[1
]}

机构：

[1] Univ Naples Federico II, Dept Chem Sci, IT-80126 Naples, Italy

[2] CNR, STEMS Sci & Technol Sustainable Energy & Mobil, IT-80125 Naples, Italy

来源：

JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING | 2024年 / 12卷 / 02期

关键词：

Fluoride adsorption; Hydroxyapatite; Modeling; ADIM; Scale-up; DYNAMIC INTRAPARTICLE MODEL; SOLUBILITY PRODUCT; AQUEOUS-SOLUTION; REMOVAL; WATER; MECHANISM; FLUID; KINETICS; DESIGN; BONE;

D O I：

10.1016/j.jece.2024.111973

中图分类号：

X [环境科学、安全科学];

学科分类号：

08 ; 0830 ;

摘要：

In the present paper, the removal of fluoride from drinking was investigated via adsorption technique, an important contaminant that could cause serious threat to human health. The challenge of this work is the scaleup from batch to continuous operation, including regeneration of the adsorbent, using a commercial hydroxyapatite, namely Fuorandel (R). Adsorption Dynamic Intraparticle Model (ADIM) was used to describe the data collected in batch mode, obtaining important parameters to design a continuous adsorption column, such as: surface diffusivity, DS, and tortuosity, tau. Those parameters were fixed to simulate the experimental data collected in a continuous device obtaining good results. Finally, the sorbent regeneration in a batch system was investigated, optimizing the conditions to enhance Fluorandel (R) recovery. The present paper shows clearly the potential application of the selected sorbent, giving all the tools needed to scale-up the operation at industrial level.

引用

页数：10

共 50 条

[1] Adsorption of fluoride from aqueous solution by alumina of alkoxide nature: Batch and continuous operation
Kamble, Sanjay P.
Deshpande, Gunavant
Barve, Prashant P.
Rayalu, Sadhana
Labhsetwar, Nitin K.
Malyshew, Alexander
Kulkarni, Bhaskar D.
DESALINATION, 2010, 264 (1-2) : 15 - 23
[2] From batch to continuous operation
Simons, K
TCE, 2005, (764): : 42 - 42
[3] Adsorption of fluoride on synthetic hydroxyapatite
Sternitzke, V.
Johnson, C. A.
GEOCHIMICA ET COSMOCHIMICA ACTA, 2009, 73 (13) : A1273 - A1273
[4] CONVERSION OF A HYDRAPULPER FROM BATCH TO CONTINUOUS OPERATION
EVERY, AM
APPITA, 1975, 28 (06): : 389 - 391
[5] THE ADSORPTION OF FLUORIDE IONS BY HYDROXYAPATITE FROM AQUEOUS-SOLUTION
LIN, J
RAGHAVAN, S
FUERSTENAU, DW
COLLOIDS AND SURFACES, 1981, 3 (04): : 357 - 370
[6] TOLUENE SULFONATION CONVERSION FROM BATCH TO CONTINUOUS OPERATION
HAFEZ, A
ELZANATI, E
HAWASH, S
ELDIWANI, G
AFINIDAD, 1990, 47 (429) : 351 - 354
[7] THE INFLUENCE OF FLUORIDE ON THE ADSORPTION OF PROTEOGLYCANS AND GLYCOSAMINOGLGCANS TO HYDROXYAPATITE
HALL, R
EMBERY, G
WADDINGTON, R
GILMOUR, A
CALCIFIED TISSUE INTERNATIONAL, 1995, 56 (03) : 236 - 239
[8] SURFACE ADSORPTION OF FLUORIDE TO HYDROXYAPATITE AND DENTAL ENAMEL
ROLLA, G
JOURNAL OF DENTAL RESEARCH, 1977, 56 : A110 - A110
[9] AN ANALYSIS OF THE PRINCIPLES OF BATCH AND CONTINUOUS OPERATION
KLINKENBERG, A
CHEMICAL ENGINEERING SCIENCE, 1955, 4 (01) : 39 - 47
[10] Adsorption of Fluoride from Water Using Sintered Clay-Hydroxyapatite Composites
Yakub, Ismaiel
Soboyejo, Wole
JOURNAL OF ENVIRONMENTAL ENGINEERING, 2013, 139 (07) : 995 - 1003

← 1 2 3 4 5 →