Your search keyword '"Khalid Digua"' showing total 19 results

1. Electrocoagulation process for the decolorization of wastewater containing Reactive Red 195 and CFD simulation of the hydrodynamic in a continuous-flow single-channel reactor

Author

Raowia Lamhar, Toussaint Ntambwe Kambuyi, Zakia Zmirli, Anas Aguelmous, Bouchra Bejjany, Khalid Digua, and Adil Dani

Subjects

cfd simulation, cfsc reactor, decolorization, electrocoagulation, rr195, textile wastewater, Environmental technology. Sanitary engineering, TD1-1066

Abstract

The highly colored textile effluents require efficient treatment before being released into the environment. In this study, a continuous-flow single-channel reactor operating in closed- circuit was used to apply electrocoagulation for the treatment of synthetic textile wastewater. First, the characterization of the hydrodynamic within the reactor is evaluated by Computational Fluid Dynamics simulation using the k-ε turbulence model (Comsol Multiphysics®). Apart from a non-uniform distribution of the velocities inside the reactor, no particular anomaly was observed. Second, the decolorization efficiency was examined under various current intensities, electrolysis times, and initial dye concentrations. By operating under a current intensity of 100 mA instead of 50 mA, the required electrolysis time to achieve a decolorization efficiency of 80% decreased by 40%, while the specific electrode consumption remained slightly unchanged at about 0.19 kg Al·kg−1. At a current intensity of 100 mA and an electrolysis time of 26 min, and the increase in the initial dye concentration from 10 to 50 mg·L−1 the decolorization efficiency decreased remarkably while the specific electrode consumption was kept constant at about 0.15 kg Al·kg−1 dye removed. The knowledge obtained through this study can be used for the transposition from batch to continuous mode. HIGHLIGHTS The EC process was carried out in a recirculation mode.; Comsol Multiphysics was used to perform CFD simulation in order to investigate the transport phenomenon in the CFSC reactor.; The RTD study is used to validate the numerical results obtained by CFD simulation.; The current intensities applied are far lower than in a conventional EC cell.; 0.15 kg/kg was considered to be the limit value of the specific electrode consumption.;

Published

2023

2. Rapid extraction and detection of ellagic acid in plant samples using a selective magnetic molecularly imprinted polymer coupled to a fluorescence method

Author

Ouarda El Hani, Abdelhafid Karrat, Juan José García-Guzmán, José María Palacios-Santander, Khalid Digua, Aziz Amine, and Laura Cubillana-Aguilera

Subjects

Magnetic molecularly imprinted polymer, Ellagic acid, Central composite design, Solid-phase extraction, Fluorescence detection, Smartphone detection, Analytical chemistry, QD71-142

Abstract

A remarkable growth was noticed in the development of molecularly imprinted polymers (MIPs), which have used as efficient synthetic antibodies that contain selective cavities to the target molecule. Hereunder, a novel strategy using MIP as a sorbent in solid-phase extraction was coupled to a fluorescence method for ellagic acid (EA) purification and immediate detection. The synthesis of magnetic-MIP (MMIP) using a rapid and green ultrasound technology was assessed by central composite design to determine the optimal polymerization conditions for a high-imprinting polymer. The MMIP was characterized by Fourier transform infrared spectroscopy, X-ray diffraction, thermogravimetric analysis, and scanning/transmission electron microscopy, which accurately confirmed the functional, magnetic, and morphological features of MMIP. The prepared MMIP was demonstrated to be selective for EA compared to many similar phenols. The spectrofluorometric method showed a linear range from 0.05 to 2 μg·mL−1 of EA, and the limits of detection (LOD) and quantification (LOQ) were 0.005 and 0.02 μg·mL−1, respectively. Besides, the novel proposed smartphone method using the ultraviolet lamp as the excitation source presented a linear range from 0.2 to 4 μg·mL−1, a LOQ of 0.2 μg·mL−1, and a LOD of 0.07 μg.mL−1. The proposed strategy revealed high efficiency in the extraction and detection of EA in grape, redberry, and green tea. Effectively, the calculated recoveries were ranging from 80 to 102% with low values of relative standard deviation (

Published

2023

3. Modelization and optimization of the treatment of the reactive black-5 dye from industry effluents using experimental design methodology

Author

Slimane EL Harfaoui, Anas Driouich, Ali Mohssine, Soumia Belouafa, Zakia Zmirli, Hafida Mountacer, Khalid Digua, and Hassan Chaair

Subjects

Reactive Black-5 dye, Coagulation-Flocculation, Chemical oxygen demand, cost Statistical analysis, Experimental design methodology, Science

Abstract

This work investigated the coagulation-flocculation (CF) process of Reactive Black-5 (RB5) dye. The individual effects and interactions of different parameters, which include the pH, coagulant (Ferric chloride), and flocculant dosage (Himoloc DR3000), on the removal efficiency of RB-5 dye were studied. This study aims to build a mathematical model that allows for the representation of the studied responses according to different factors by using the experimental design methodology. The statistical fitness of the developed model was checked using analysis of variance (ANOVA). A second-order quadratic model, with a high determination coefficient (R2 =0.98% and R2=0.80% for chemical oxygen demand (COD) removal and overall cost, respectively), was best fitted to develop the relationship between independent and dependent variables. The results obtained show that the model was highly significant and in good agreement with the experimental results. The optimum conditions obtained for coagulant dose, flocculant dose, and pH were 550 mg/l, 210 mg/l, and 5.4, respectively. Under these optimal conditions, about 98% COD removal and 3.12 $/m3 for effluent treatment were achieved.

Published

2022

4. Geographical Classification of Saffron (Crocus Sativus L.) Using Total and Synchronous Fluorescence Combined with Chemometric Approaches

Author

Ouarda El Hani, Juan José García-Guzmán, José María Palacios-Santander, Khalid Digua, Aziz Amine, Said Gharby, and Laura Cubillana-Aguilera

Subjects

saffron, synchronous fluorescence, emission-excitation matrix, geographical classification, principal component analysis, linear discriminant analysis, Chemical technology, TP1-1185

Abstract

There is an increasing interest in food science for high-quality natural products with a distinct geographical origin, such as saffron. In this work, the excitation-emission matrix (EEM) and synchronous fluorescence were used for the first time to geographically discriminate between Moroccan saffron from Taroudant, Ouarzazate, and Azilal. Moreover, to differentiate between Afghan, Iranian, and Moroccan saffron, a unique fingerprint was assigned to each sample by visualizing the EEM physiognomy. Moreover, principal component analysis (LDA) and linear discriminant analysis (LDA) were successfully applied to classify the synchronous spectra of samples. High fluorescence intensities were registered for Ouarzazate and Taroudant saffron. Yet, the Azilal saffron was distinguished by its low intensities. Furthermore, Moroccan, Afghan, and Iranian saffron were correctly assigned to their origins using PCA and LDA for different offsets (Δλ) (20–250 nm) such that the difference in the fluorescence composition of the three countries’ saffron was registered in the following excitation/emission ranges: 250–325 nm/300–480 nm and 360–425 nm/500–550 nm. These regions are characterized by the high polyphenolic content of Moroccan saffron and the important composition of Afghan saffron, including vitamins and terpenoids. However, weak intensities of these compounds were found in Iranian saffron. Furthermore, a substantial explained variance (97–100% for PC1 and PC2) and an important classification rate (70–90%) were achieved. Thus, the non-destructive applied methodology of discrimination was rapid, straightforward, reliable, and accurate.

Published

2023

5. Application of Statistical Experimental Design and Surface Plot Technique to Optimize Oxygenated Apatite Synthesis

Author

Soumia Belouafa, Hassan Chaair, and Khalid Digua

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

This work deals with oxygenated apatite synthesis from calcium chloride and phosphoric acid using a wet precipitation method. An experimental design is applied to precise the influence of the synthesis parameters (pH of the reaction medium, atomic ratio Ca/P of the reagents, concentration of the calcium solution (Ca2+), temperature of the reaction medium (T), and duration of the reaction (D)) on the chemical composition (Ca/P molar ratio, % O2, and % O22−). An empirical model was developed and validated by applying the ANOVA analysis incorporating the interaction effects of all parameters and optimized using the response surface methodology. A reproducible synthesis of more oxygenated apatite with speed of dissolution adaptable to that of the osseous neoformation and allowing a progressive diffusion of oxygenated species (Ca/P = 1.575) is attained.

Published

2020

6. Characterization of antiseptic apatite powders prepared at biomimetics temperature and pH

Author

Soumia Belouafa, Hassan Chaair, Hayate Loukili, Khalid Digua, and Brahim Sallek

Subjects

calcium phosphate, oxygenated apatite, precipitation, biomimetic conditions, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Antiseptic apatite-based calcium phosphates were prepared as the single-phase powders. Phosphocalcic oxygenated apatites were synthesized from calcium salts and orthophosphate dissolved in oxygenated water solution at 30%, under the biomimetic conditions of 37 °C and pH 7.4. The characterization and chemical analysis of the synthesized biomimetic apatite powders were performed by scanning electron microscopy (SEM), powder X ray diffraction (XRD), Fourier-transformed infrared spectroscopy (FT-IR) and chemical analysis. The obtained materials are a calcium deficient apatites with different morphologies.

Published

2008

7. Modeling and optimization of olive mill wastewater dephenolization by a process combining coagulation and advanced oxidation using an activated lime coagulant and hydrogen peroxide

Author

Jyia, Hamza, Mohssine, Ali, Belouafa, Soumia, EL Harfaoui, Slimane, Zmirli, Zakia, Sallek, Brahim, Khalid, Digua, and Chaair, Hassan

Published

2024

8. Performance of simultaneous carbon, nitrogen, and phosphorus removal from vegetable oil refining wastewater in an aerobic-anoxic sequencing batch reactor (OA-SBR) system by alternating the cycle times

Author

Chaymae Haddaji, Mohammed Chatoui, Safaa Khattabi Rifi, Zineb Ettaloui, Khalid Digua, Aysegul Pala, Abdelkader Anouzla, and Salah Souabi

Subjects

Materials Science (miscellaneous), Management, Monitoring, Policy and Law, Pollution, Waste Management and Disposal, Water Science and Technology

Abstract

Carbon (C), nitrogen (N), and phosphorus (P) pollutants are among the most common environmental contaminants in different types of industrial wastewater, and they are a pollution factor that causes the eutrophication of receiving aquatic systems. An aerobic-anoxic sequencing batch reactor (O/A-SBR) system was studied to enhance the efficiency of vegetable oil refining wastewater treatment (VORW). Reactors were exploited with a total cycle period of 24 h (20 min filling, 17 h aeration, 4 h anoxic, 2 h settling, 20 min draw, and 20 min idle). SBR efficiency was evaluated by measuring pH, turbidity, chemical oxygen demand (COD), biochemical oxygen demand (BOD5), and nutrients such as nitrate, ammonium, and phosphate. The results showed better performance from the start of operation with COD (83%), BOD5 (94%), turbidity (80%), nitrate (93%), ammonium (96%), and phosphate (91%) removal efficiencies. As industrial wastewater treatment is an important and complicated issue regarding environmental pollution, SBR can provide a better solution. The O/A-SBR system is a promising option that the VOR industry may adopt as a pre-treatment due to its more effective, inexpensive, and simple operation for organic matter and nutrient removal.

Published

2023

9. Optimization of the coagulation-flocculation process for vegetable oil refinery wastewater using a full factorial design

Author

Chaymae Haddaji, Karima Ennaciri, Anas Driouich, Khalid Digua, and Salah Souabi

Subjects

Environmental Engineering, General Chemical Engineering, Environmental Chemistry, Safety, Risk, Reliability and Quality

Published

2022

10. Optimization of activated carbon by chemical activation from grape seeds using the response surface methodology

Author

Safae El Alami El Hassani, Anas Driouich, Hassan Chaair, Hamid Mellouk, and Khalid Digua

Published

2022

11. Multi-response optimization of coagulation-flocculation process for stabilized landfill leachate treatment using a coagulant based on an industrial effluent

Author

Abdelkader Anouzla, Malika Kastali, Karima Azoulay, Imane Bencheikh, Ghizlane Fattah, Jamal Mabrouki, Chirâa Elidrissi Elhassani, Boubker Ouadil, Khadija El Moustaqim, Chaymae Bakkouche, Ali Moussadik, Latifa Mouhir, Khalid Digua, Salah Souabi, Redouane Khaoulaf, Souad El Hajjaji, Hayat Loukili, Nabil Saffaj, Mourade Azrour, and Younes Abrouki

Published

2022

12. Optimization of Performance the Waste in Treatment of Textile Wastewater Using Response Surface Methodology

Author

Abdelkader Anouzla, Amina Khalidi Idrissi, Oussam Hartal, Malika Kastali, Hayat Loukili, Khalid Digua, Salah Souabi, Bachar Redouane, Ali Moussadik, Mohamed Elouardi, Karima Azoulay, Imane Bencheikh, Mohamed Benchrifa, Younes Abrouki, Jamal Mabrouki, Adnane El Hamidi, Mohammed Dahhou, Hicham Harhar, Ghizlane Fattah, and Mohammed Salah

Published

2023

13. Pre-treated Moroccan natural clays: application to the wastewater treatment of textile industry

Author

Hayat Loukili, Jamal Mabrouki, Abdelkader Anouzla, Youness Kouzi, Saad Alami Younssi, Khalid Digua, and Younes Abrouki

Published

2021

14. Advanced molecularly imprinted polymer-based paper analytical device for selective and sensitive detection of Bisphenol-A in water samples

Author

Ouarda El Hani, Abdelhafid Karrat, Khalid Digua, and Aziz Amine

Subjects

Spectroscopy, Analytical Chemistry

Published

2023

15. Elemental profiling and geographical differentiation of saffron (Crocus sativus L.) using inductively coupled plasma-optical emission spectroscopy (ICP-OES) and principal component analysis

Author

Mohamed Ibourki, Said Gharby, El Hassan Sakar, Ouarda El Hani, Khalid Digua, Aziz Amine, Moussa Nid Ahmed, Zoubida Charrouf, Dominique Guillaume, and Abdelatif El Hammadi

Subjects

General Chemistry

Published

2022

16. A Microdialysis Probe Coupled with A Miniaturized Thermal Glucose Sensor for In Vivo Monitoring

Author

Bin Xie, Khalid Digua, Aziz Amine, and Bengt Danielsson

Subjects

Flow injection analysis, Microdialysis, Chromatography, Immobilized enzyme, biology, Chemistry, Biochemistry (medical), Clinical Biochemistry, Analytical chemistry, Biochemistry, Analytical Chemistry, Volumetric flow rate, In vivo, Thermal, Electrochemistry, biology.protein, Glucose oxidase, Biosensor, Spectroscopy

Abstract

A miniaturized thermal flow injection analysis biosensor has been coupled with a microdialysis probe for continuous subcutaneous glucose monitoring. Thermal biosensors are based on the principle of measuring the heat evolved during enzyme catalysed reactions. The system presented here consists of a miniaturized thermal biosensor with a small column containing coimmibolized glucose oxidase and catalase. The analysis buffer passes through the column at a flow rate of 60μL/min via an 1μL sample loop which is connected to a microdialysis probe. Invitro results showed constant permeability of the probe and stability of the biosensor response during 24 hours. The response time was 85 sec giving a sample rate of 42 samples/hour. During a load experiment, the glucose profile in a healthy volunteer was followed both in the subcutaneous tissue and blood using the microdialysis set-up proposed and comparing to blood glucose analyser.

Published

1995

17. Surfactant modified carbon paste electrode: Part 2: Analytical performances

Author

M. Khodari, Jean-Michel Kauffmann, and Khalid Digua

Subjects

Working electrode, urogenital system, Chemistry, viruses, Inorganic chemistry, Analytical chemistry, biochemical phenomena, metabolism, and nutrition, Reference electrode, Amperometry, Analytical Chemistry, Carbon paste electrode, stomatognathic system, Pulmonary surfactant, Electrode, Electrochemistry, Molecule, Voltammetry

Abstract

The hexadecylsulfonic acid (sodium salt) modified carbon paste electrode (HDSNa‐CPE) has been studied in batch and flowing systems, and its analytical performance has been established in comparison with a conventional carbon paste electrode (CPE). Amperometry, linear scan, and preconcentration voltammetry have been used for the investigation of several analytes of pharmacological interest. Because of the presence of surface functionalities, markedly different electrode responses have been observed at the HDSNa‐CPE depending on the nature (hydrophobicity and charge) of the investigated molecule. The HDSNa‐CPE showed, in linear scan voltammetry and for all the species investigated, higher responses compared to the CPE. The HDSNa‐CPE showed important current enhancements in voltammetric analysis of hydrophobic organic cations in acidic media and at low ionic strength. Copyright © 1994 VCH Publishers, Inc.

Published

1994

18. Surfactant modified carbon paste electrode: Part 1: Electrochemical and microscopic characterization

Author

Jean-Michel Kauffmann, Khalid Digua, and Jean-Luc Delplancke

Subjects

Materials science, Working electrode, Quinhydrone electrode, Chemical engineering, Saturated calomel electrode, Palladium-hydrogen electrode, Electrochemistry, Analytical chemistry, Cyclic voltammetry, Reference electrode, Analytical Chemistry, Chemically modified electrode, Carbon paste electrode

Abstract

The modification of the carbon paste electrode (CPE) with the amphiphile hexadecyl sulfonic acid (sodium salt) has permitted the development of a stable and analytically useful functionalized electrode. The electrochemical characterization of the modified electrode (potential range, background current, stability) has been investigated by cyclic voltammetry in aqueous media with different buffer compositions and in hydro-organic media and the results compared favorably with the conventional carbon paste electrode. The characterization of the sulfonated functionalities and their influence in the electrode behavior has been pointed out using linear scan and adsorptive voltammetry by studying two model compounds: promethazine and ascorbic acid. The marked influence of the pH, ionic strength, and nature of the buffer cation on the shape (potential and intensity) of the voltammetric curves confirmed the structure of the modified electrode interface, i.e., electrode bearing strong cation exchange functionalities. Scanning electron microscopy and optical microscopic observations of the CPE and modified CPE showed a higher density of graphite particles not covered by liquid paraffin at the latter.

Published

1994

19. Determination of cis-Platin in Human Plasma by HPLC with a Glassy Carbon-Based Wall-Jet Amperometric Detector

Author

Jean-Michel Kauffmann, Ghanem Elias Ghanem, Khalid Digua, and Gaston Patriarche

Subjects

Detection limit, Hydrolysis, Chromatography, Aqueous solution, Chemistry, Reagent, Molecular Medicine, Reversed-phase chromatography, Glassy carbon, High-performance liquid chromatography, Amperometry

Abstract

Previous voltammetric experiments have shown the electrooxidation of cisplatin (cis-diamminedichloroplatinua II, CDDP) and its hydrolysis products at the glassy carbon electrode. Taking into account the advantages of the oxidative detection mode(rather than reduction) and by using an easy to handle wall-jet configuration, the sensitive HPLC determination of cis-platin has been successfully performed in biological samples. Several counter-ions generally employed in ion-pair chromatography have been investigated in order to optimize the analysis of CDDP in terms of separation efficacy, retention time and compatibility with the electrochemical detection mode. The cationic detergent cetyltrimethylammonium chloride(CTACl) has been found to be the most appropriate ion-pairing reagent for the determination of intact CDDP in spiked plasma. The limit of detection was 30 ng/ml and 150 ng/ml in aqueous and plasma samples, respectively. The recovery of cis-DDP in plasma was 86 ± 5 %. At a concentration of 10...

Published

1992