Your search keyword '"Congo red"' showing total 100 results

1. Enhanced adsorption of Congo red from urea/calcium chloride co-modified biochar: Performance, mechanisms and toxicity assessment.

Author

Liu, Zepeng, Hu, Yueyao, Zhang, Jie, Guan, Ying, Zhang, Liping, Ye, Ping, Zhang, Tongtong, Huang, Xingyu, Wang, Meng, and Gao, Hui

Subjects

*CONGO red (Staining dye), *CALCIUM chloride, *UREA, *BIOCHAR, *ADSORPTION (Chemistry), *EAST Indian lotus, *SORBENTS

Abstract

[Display omitted] • The method of combined urea/calcium chloride modification was described. • The modified biochar was proven to hold a dramatic Congo red adsorption capacity. • The effectiveness of modification and sorption mechanisms were explored thoroughly. • An assessment of the biological toxicity of the treated Congo Red effluent was carried out. Adsorbents with excellent physicochemical properties and green synthetic routes are desired for efficient removal of Congo red (CR) wastewater. Hence, a novel approach was proposed within this work. Biochar NCBC obtained from Medulla Tetrapanacis was synthesized through co-modification with urea/calcium chloride. NCBC exhibited an enormous surface area (750.09 m2/g) and a micro-mesoporous composite structure. Higher nitrogen content was detected on the surface of NCBC (8.17%) compared to that of urea directly modified biochar (4.63%). Nitrogen observed on the surface of NCBC was presented as graphitic N, pyrrolic N, amine N as well as pyridinic N. Kinetic and isothermal investigations revealed the active sites on NCBC to be homogeneous and bind to CR mainly by chemisorption. Calculated maximum sorption of CR on NCBC was 2512.82 mg/g basing on Langmuir model. Moreover, the practicality of NCBC was further proved by the cultivation of Nelumbo nucifera Gaertn. and Penicillium. [ABSTRACT FROM AUTHOR]

Published

2023

2. Calcium-rich biochar from crab shell: An unexpected super adsorbent for dye removal.

Author

Dai, Lichun, Zhu, Wenkun, He, Li, Tan, Furong, Zhu, Nengmin, Zhou, Qin, He, Mingxiong, and Hu, Guoquan

Subjects

*BIOCHAR, *CRAB shells, *SORBENTS, *DYES & dyeing, *MALACHITE

Abstract

Adsorption is the common-used method to remove dyes from wastewater, and many efforts have been made to develop low-cost but excellent adsorbents. Here, calcium-rich biochar (CRB) as a low-cost adsorbent was directly prepared from crab shell via a simple pyrolysis process without any modification. Batch adsorption results suggested that CRB was among the dye adsorbents with highest adsorption capacities and fastest adsorption rate. Specifically, it showed high adsorption capacities of 12,502 and 20,317 mg/g for cationic malachite green and anionic Congo red, respectively. The adsorption equilibrium for Congo red onto CRB could be achieved as short as 2 min. Furthermore, the dye adsorption mechanism for CRB, as investigated by zeta potential and FTIR spectra, could be attributed to electrostatic attraction, hydrogen bonding and π-π interaction. Finally, this study suggested that, attributed to its cheap source, simple synthesis process and excellent adsorption performance, CRB was promising in dye removal. [ABSTRACT FROM AUTHOR]

Published

2018

3. Performance and mechanism of azo dyes degradation and greenhouse gases reduction in single-chamber electroactive constructed wetland system

Author

Wenyue, Wang, Junru, Wang, Xu, Wang, Yuqian, Cui, Tianyu, Zhai, Huazhen, Wu, and Sen, Wang

Subjects

Greenhouse Gases, Environmental Engineering, Renewable Energy, Sustainability and the Environment, Wetlands, Nitrous Oxide, Congo Red, Bioengineering, General Medicine, Carbon Dioxide, Azo Compounds, Methane, Waste Management and Disposal

Abstract

A single-chamber microbial fuel cell-microbial electrolytic cell with a novel constructed wetland system was proposed for synergistic degradation of congo red and reduction in emissions of greenhouse gases. The closed-circuit system showed higher chemical oxygen demand and congo red removal efficiencies by 98 % and 96 % on average, respectively, than traditional constructed wetland. It could also significantly reduce the emissions of CH

Published

2022

4. Performance and mechanism of azo dyes degradation and greenhouse gases reduction in single-chamber electroactive constructed wetland system.

Author

Wang, Wenyue, Wang, Junru, Wang, Xu, Cui, Yuqian, Zhai, Tianyu, Wu, Huazhen, and Wang, Sen

Subjects

*AZO dyes, *CONSTRUCTED wetlands, *GREENHOUSE gas mitigation, *GREENHOUSE gases, *MICROBIAL fuel cells, *CONGO red (Staining dye), *ELECTROLYTIC cells, *GREENHOUSE gas analysis

Abstract

[Display omitted] • A novel single-chamber electroactive constructed wetland (ECW) was developed. • Closed-circuit ECW showed higher removal performance for congo red. • Dye-degrading and electroactive bacteria were enriched in closed-circuit ECW. • Closed-circuit ECW facilitated greenhouse gas reduction. • Predictive metagenome functions speculated the degradation pathways of congo red. A single-chamber microbial fuel cell-microbial electrolytic cell with a novel constructed wetland system was proposed for synergistic degradation of congo red and reduction in emissions of greenhouse gases. The closed-circuit system showed higher chemical oxygen demand and congo red removal efficiencies by 98 % and 96 % on average, respectively, than traditional constructed wetland. It could also significantly reduce the emissions of CH 4 and N 2 O (about 52 % CO 2 -equivalents) by increasing the electron transfer. Microbial community analysis demonstrated that the progressive enrichment of dye-degrading microorganisms (Comamonas), electroactive bacteria (Tolumonas , Trichococcus) and denitrifying microorganisms (Dechloromonas) promoted pollutant removal and electron transfer. Based on gene abundance of xenobiotics biodegradation, the congo red biodegradation pathway was described as congo red → naphthalene and alcohols → CO 2 and H 2 O. In summary, the single-chamber closed-circuit system could significantly improve the degradation of congo red and reduce the emissions of greenhouse gases by influencing electron transfer and microbial activity. [ABSTRACT FROM AUTHOR]

Published

2022

5. Production and optimization of bamboo hydrochars for adsorption of Congo red and 2-naphthol.

Author

Li, Yin, Meas, Arun, Shan, Shengdao, Yang, Ruiqin, and Gai, Xikun

Subjects

*BAMBOO, *CONGO red (Staining dye), *NAPHTHOL, *ADSORPTION (Chemistry), *WOOD waste, *WASTEWATER treatment

Abstract

Twelve hydrochars were produced from bamboo sawdust for adsorption of Congo red and 2-naphthol. The bamboo hydrochars have Brunauer–Emmett–Teller (BET) surface areas ranging from 2.63 m 2 /g to 43.07 m 2 /g, average pore diameters from 3.05 nm to 3.83 nm, pore volumes between 0.02 cm 3 /g and 0.53 cm 3 /g, and the surfaces of the hydrochars have diverse functional groups. The physico-chemical properties of the hydrochars critically depend on the hydrothermal conditions. All the hydrochars can adsorb Congo red and 2-naphthol from aqueous solutions, the largest adsorption capacity for Congo red is 33.7 mg/g at the equilibrium concentration of 0.1 mg/mL at 25 °C, and the highest adsorption amount for 2-naphthol is 12.2 mg/g at 25 °C and 0.1 mg/mL. Freundlich model can describe the adsorption isotherms of the both adsorbates slightly better than Langmuir model. These results provide a reference to the production and use of hydrochars as potential adsorbents in wastewater treatment. [ABSTRACT FROM AUTHOR]

Published

2016

6. Activated carbons from waste Cassia bakeriana seed pods as high-performance adsorbents for toxic anionic dye and ciprofloxacin antibiotic remediation

Author

Nontipa Supanchaiyamat, Suphattra Aintharabunya, Wimonsiri Intarabumrung, Nidchakarn Theamwong, Yuvarat Ngernyen, Andrew J. Hunt, and Suwiwat Sangon

Subjects

Environmental Engineering, Environmental remediation, Groundwater remediation, Cassia, chemistry.chemical_element, Bioengineering, chemistry.chemical_compound, Adsorption, Ciprofloxacin, medicine, Waste Management and Disposal, biology, Renewable Energy, Sustainability and the Environment, Chemistry, General Medicine, biology.organism_classification, Congo red, Anti-Bacterial Agents, Kinetics, Charcoal, Pyrolysis, Carbon, Water Pollutants, Chemical, Nuclear chemistry, Activated carbon, medicine.drug

Abstract

Waste Cassia bakeriana seed pods were used for porous carbon production in a facile pyrolysis process. The carbons were highly efficient adsorbents for methylene blue, congo red and ciprofloxacin antibiotic from aqueous media. The experimental results demonstrated that despite moderate surface area of 283.4 m2/g, KOH activated carbon (PSAC-KOH) exhibited the highest adsorption capacity for congo red reported to date for carbon-based adsorbents (970 mg/g). PSAC-KOH also demonstrated a high adsorption capacity at 600 mg/g for ciprofloxacin. Raman spectroscopy, X-ray diffraction and X-ray Photoelectron spectroscopy analysis of the carbons demonstrated an extensive graphitic characteristic, while Fourier transform infrared spectra of PSAC-KOH suggested a high proportion of aromaticity which promotes adsorption mechanisms including electrostatic and π-π interactions. Pseudo-second-order kinetic model fitting suggested a rate-controlling chemisorption mechanism. The utilization of waste Cassia bakeriana seed pods for carbon production may create new opportunities to develop sustainable and highly efficient adsorbents for water remediation.

Published

2021

7. Partly reduced graphene oxide aerogels induced by proanthocyanidins for efficient dye removal

Author

Keke Zhang, Cuiyun Liu, Chang Lu, Hongyu Liu, Xuyin He, Bingli Pan, and Minna Dou

Subjects

0106 biological sciences, Neutral red, Environmental Engineering, Oxide, Bioengineering, 010501 environmental sciences, 01 natural sciences, Hydrothermal circulation, law.invention, chemistry.chemical_compound, Adsorption, law, 010608 biotechnology, Proanthocyanidins, Coloring Agents, Waste Management and Disposal, 0105 earth and related environmental sciences, Renewable Energy, Sustainability and the Environment, Graphene, Aerogel, General Medicine, Congo red, chemistry, Chemical engineering, Graphite, Gels, Methylene blue

Abstract

In this study, a novel surface modified and partly reduced graphene oxide (PRGO) induced by mild oligomeric proanthocyanidins (OPC) was prepared for efficient dye removal. The in situ partial reduction, modification and assembly of GO sheets into OPC-PRGO aerogels were readily realized by a hydrothermal process. Systemically characterizations were performed to confirm the partial reduction and modification of GO by OPC. The OPC-PRGO aerogels exhibited a honeycomb-like structure rather than a snowflake-like structure of GO aerogel. Due to its unique structure, the OPC-PRGO aerogels exhibited an excellent adsorption property towards organic dyes, such as methylene blue (MB), neutral red (NR), amino black (AB) and Congo red (CR). The removal efficiencies of OPC-PRGO towards MB, NR, AB and CR were observed to be 97.5, 94.5, 87.2 and 88.2%, respectively. This study opens a new insight for understanding and preparing partly reduced GO instead of completely reduced GO for hydrophilic polymer/graphene composites.

Published

2019

8. Microwave assisted hydrothermal preparation of rice straw hydrochars for adsorption of organics and heavy metals

Author

Shengdao Shan, TiKai Li, Hongpeng Wang, Nyamkhand Tsend, Heyang Liu, Yin Li, Ruiqin Yang, and Xikun Gai

Subjects

0106 biological sciences, Hot Temperature, Environmental Engineering, chemistry.chemical_element, Bioengineering, 010501 environmental sciences, 01 natural sciences, Oxygen, Hydrothermal circulation, Hydrothermal carbonization, chemistry.chemical_compound, Adsorption, 010608 biotechnology, Microwaves, Waste Management and Disposal, 0105 earth and related environmental sciences, Pollutant, Aqueous solution, Renewable Energy, Sustainability and the Environment, Chemistry, Oryza, General Medicine, Carbon, Congo red, Zinc, Thermodynamics, Copper, Nuclear chemistry

Abstract

A series of rice straw hydrochars were produced through a microwave-assisted hydrothermal treatment method, characterized and used for the adsorption of three organics and two heavy metals from aqueous solutions. The hydrochars have carbon contents from 37.44% to 43.31%, are rich in oxygen containing functional groups, and the equilibrium of hydrothermal carbonization reactions could be reached rapidly in microwave environment. The hydrochars can effectively adsorb the model pollutants, the maximum adsorption capacities of Congo red, berberine hydrochloride and 2-naphthol at 298 K and initial concentration of 0.5 mg/mL were 222.1, 174.0 and 48.7 mg/g, respectively, and those of Zn2+ and Cu2+ were 112.8 and 144.9 mg/g, respectively. Adsorption thermodynamic parameters were calculated. These results suggest that microwave-assisted hydrothermal treatment is an effective method for the rapid production of hydrochars, and rice straw hydrochars are promising adsorbents for the removal of water pollutants such as organics and heavy metals.

Published

2019

9. Efficient removal of various textile dyes from wastewater by novel thermo-halotolerant laccase

Author

Ghasem Hosseini Salekdeh, Kaveh Kavousi, Mohammad Reza Ghaffari, Elaheh Motamedi, Seyedeh Fatemeh Sadeghian Motahar, Atefeh Sheykh Abdollahzadeh Mamaghani, and Shohreh Ariaeenejad

Subjects

0106 biological sciences, Environmental Engineering, Bioengineering, 010501 environmental sciences, Wastewater, Alizarin, 01 natural sciences, Anthraquinone, chemistry.chemical_compound, 010608 biotechnology, Bromothymol blue, Humans, Coloring Agents, Waste Management and Disposal, Effluent, 0105 earth and related environmental sciences, Laccase, Triphenylmethane, Renewable Energy, Sustainability and the Environment, Textiles, General Medicine, Congo red, chemistry, Textile Industry, Metagenome, Nuclear chemistry

Abstract

A novel thermostable/halotolerant metagenome-derived laccase (PersiLac2) from tannery wastewater was purified to remove textile dyes in this study. The enzyme was highly active over a wide temperature and pH range and maintained 73.35% of its initial activity after 30 days, at 50 °C. The effect of various metal and organic-solvent tolerance on PersiLac2 showed, retaining greater than 53% activity at 800 mM of metal ions, 52.12% activity at 6 M NaCl, and greater than 44.09% activity at 20% organic solvents. PersiLac2 manifested effective removal of eight different textile dyes from azo, anthraquinone, and triphenylmethane families. It decolorized 500 mg/L of Alizarin yellow, Carmine, Congo red and Bromothymol blue with 99.74–55.85% efficiency after 15 min, at 50 °C, without mediator. This enzyme could practically remove dyes from a real textile effluent and it displayed significant detoxification in rice seed germination tests. In conclusion, PersiLac2 could be useful in future for decolorization/detoxification of wastewater.

Published

2021

10. One-step preparation of lignin-based magnetic biochar as bifunctional material for the efficient removal of Cr(VI) and Congo red: Performance and practical application.

Author

Sun Y, Wang T, Han C, Bai L, and Sun X

Subjects

Lignin, Charcoal, Chromium, Adsorption, Magnetic Phenomena, Congo Red, Water Pollutants, Chemical analysis

Abstract

The lignin-based magnetic biochar (LMB) was fabricated with a facile one-step solvothermal method. The spherical Fe 3 O 4 was successfully loaded on the lignin-based biochar. LMB could efficiently remove Cr(VI) and Congo red (CR) synergistically with the adsorption of biochar and the catalytic/reduction of Fe 3 O 4 . LMB showed a removal efficiency of 100 % for Cr(VI) (100 mg/L) at 30 min. The LMB could be a catalyst to activate persulfate (PS) to degrade CR. The LMB + PS system showed a removal efficiency of 94.3 % for CR at 60 min. Moreover, LMB could simultaneously remove 41.5 % of Cr(VI) and 91.5 % of CR in the mixed Cr(VI) and CR solution. The simulated wastewater studies showed that LMB exhibited superior high Cr(VI) (100 %) and CR (82 %) removal efficiencies with the coexistent of anions, cations, and organic matter. LMB can be effectively applied to remove Cr(VI) and CR and purify different contaminated water bodies., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

11. Efficient and rapid adsorption characteristics of templating modified guar gum and silica nanocomposite toward removal of toxic reactive blue and Congo red dyes.

Author

Pal, Sagar, Patra, Abhay Shankar, Ghorai, Soumitra, Sarkar, Amit Kumar, Mahato, Vivekananda, Sarkar, Supriyo, and Singh, R.P.

Subjects

*GUAR gum, *SILICA nanoparticles, *CONGO red (Staining dye), *SOL-gel processes, *POLYACRYLAMIDE, *AQUEOUS solutions

Abstract

The present study highlights the potentiality of sol–gel synthesized guar gum-graft- poly (acrylamide)/silica (g-GG/SiO 2 ) hybrid nanocomposite toward the rapid removal of toxic reactive blue 4 (RB) and Congo red (CR) dyes from aqueous solution. Various physicochemical characterizations support the feasibility of the functionalized guar gum matrix as efficient template for the formation of homogeneous nanoscale silica particles. The composite demonstrates rapid and superior adsorption efficiency of RB ( Q max : 579.01 mg g −1 within 40 min) and CR ( Q max : 233.24 mg g −1 within 30 min) dyes from aqueous environment. Here, the pH driven adsorption process depends strongly on the ionic strength of the salt solution. The adsorption kinetics data predicts that pseudo second-order (surface adsorption) and intraparticle diffusion take place simultaneously. The adsorption equilibrium is in good agreement with the Langmuir isotherm, while the thermodynamics study confirms spontaneous nature of the adsorption process. Desorption study predicts the excellent regenerative efficacy of nanocomposite. [ABSTRACT FROM AUTHOR]

Published

2015

12. Biodegradation of Congo red dye using polyurethane foam-based biocarrier combined with activated carbon and sodium alginate: Batch and continuous study

Author

Kanhaiya Lal Maurya, Ganesh Swain, Ravi Kumar Sonwani, Ankur Verma, and Ram Sharan Singh

Subjects

Biodegradation, Environmental, Bioreactors, Environmental Engineering, Alginates, Renewable Energy, Sustainability and the Environment, Charcoal, Polyurethanes, Humans, Congo Red, Bioengineering, General Medicine, Coloring Agents, Waste Management and Disposal

Abstract

Dyes are an important class of organic pollutants and are well known for their adverse effects on aquatic life and human beings. In this work, an effort has been made to treat the dye-containing wastewater using modified biocarriers in packed bed bioreactors (PBBRs). Lysinibacillus sp. immobilized polyurethane foam combined with activated carbon and sodium alginate was used for the biodegradation of Congo red dye. The optimum values of process time, glucose concentration, and dye concentration were obtained to be 4.0 days, 2.0 g/L, and 50 mg/L, respectively. The maximum dye removal efficiency (RE) of 92.63 % was obtained at the optimized conditions. The continuous PBBR offered a maximum RE and elimination capacity of 90.73% and 10.89 mg/L. d, respectively, at an inlet loading rate of 12 mg/L. d. Moreover, the growth kinetic of Lysinibacillus sp. was well predicted by the Andrew-Haldane model with a regression coefficient of 0.98.

Published

2022

13. Highly efficient removal of dyes from wastewater using nanocellulose from quinoa husk as a carrier for immobilization of laccase

Author

Shohreh Ariaeenejad, Elaheh Motamedi, and Ghasem Hosseini Salekdeh

Subjects

Environmental Engineering, Renewable Energy, Sustainability and the Environment, Laccase, Congo Red, Bioengineering, General Medicine, Chenopodium quinoa, Wastewater, Coloring Agents, Enzymes, Immobilized, Waste Management and Disposal

Abstract

In this study, the synthesis of nanocellulose (NC) from an agro-waste of quinoa husks (QS) was reported for the first time. The NC nano-carrier was utilized for immobilization of a model laccase enzyme (PersiLac1) providing an innovative, green, and practical nano-biocatalyst for efficient removal of two different model dyes (malachite green (MG) and congo red (CR)) from water. This nano-biocatalyst developed a synergistic adsorption-degradation approach leading the dye molecules easily gathered near the nano-carrier by adsorption and then degraded effectively by the enzyme. Upon enzyme immobilization, the dye removals (%) were remarkably improved for both 150 mg/L of dyes (from 54% and 12%, for MG and CR, respectively, in case of the pristine NCs, to 98% and 60% for the immobilized enzyme). The immobilized PersiLac1 could decolorize the concentrated dye solutions and showed superior reusability (up to 83% dye removal after 18th runs for MG) and remarkable performance from complex real textile effluents.

Published

2022

14. Hydrochars from bamboo sawdust through acid assisted and two-stage hydrothermal carbonization for removal of two organics from aqueous solution

Author

Ruiqin Yang, Yin Li, Hongpeng Wang, Shengdao Shan, Xikun Gai, Arun Meas, and Nyamkhand Tsend

Subjects

Environmental Engineering, 020209 energy, Bioengineering, 02 engineering and technology, Wastewater, chemistry.chemical_compound, Hydrothermal carbonization, Adsorption, Biochar, 0202 electrical engineering, electronic engineering, information engineering, Charcoal, Waste Management and Disposal, Aqueous solution, Renewable Energy, Sustainability and the Environment, Water, Congo Red, General Medicine, Refuse Disposal, Congo red, chemistry, Chemical engineering, visual_art, visual_art.visual_art_medium, Sawdust, Sasa, Water Pollutants, Chemical

Abstract

A series of bamboo hydrochars were prepared through acid-assisted and two-stage hydrothermal carbonization, characterized and evaluated for the adsorption of Congo red and 2-naphthol in aqueous solutions. The hydrochars have rough surfaces with BET surface areas of 6.77–57.74 m2/g and oxygen-rich functional groups. The additives in feed water revealed critical influences on the physical-chemical and adsorption properties of the hydrochars. The hydrochars can adsorb the two organics effectively, the highest adsorption capacities for Congo red and 2-naphthol are 90.51 and 72.93 mg/g, respectively, at 0.1 mg/mL and 298 K. The adsorption of the two organics on the selected hydrochars is a spontaneous and mainly physical adsorption process. 95% and 92% of the adsorption equilibrium could be accomplished in one hour for Congo red and 2-naphthol on the selected hydrochars, respectively. This study provides references for the production and application of hydrochars as efficient adsorbents in wastewater treatment.

Published

2018

15. Highly efficient adsorption of dyes by biochar derived from pigments-extracted macroalgae pyrolyzed at different temperature

Author

Yan Zhou, Nanqi Ren, Shih-Hsin Ho, Yen-Chang Lin, and Yi-di Chen

Subjects

Environmental Engineering, Bioengineering, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, chemistry.chemical_compound, Adsorption, Biochar, Thermal stability, Crystal violet, Malachite green, Coloring Agents, Waste Management and Disposal, 0105 earth and related environmental sciences, Renewable Energy, Sustainability and the Environment, Temperature, General Medicine, Seaweed, 021001 nanoscience & nanotechnology, Congo red, chemistry, Wastewater, Chemical engineering, Charcoal, 0210 nano-technology, Pyrolysis

Abstract

Biochar is known to efficiently adsorb dyes from wastewater. In this study, biochar was derived from macroalgae residue by pyrolysis, and the influence of varying temperature (from 400 °C to 800 °C) on biochar characteristics was investigated. Among the biochar samples tested, macroalgae-derived biochar possessing highly porous structure, special surface chemical behavior and high thermal stability was found to be efficient in removing malachite green, crystal violet and Congo red. The biochar derived by pyrolysis at 800 °C showed the highest adsorption capacity for malachite green (5306.2 mg g−1). In this study, the transformation of microalgae residue into a highly efficient dye adsorbent is a promising procedure for economic and environmental protection.

Published

2018

16. Bioremediation of Congo red dye in immobilized batch and continuous packed bed bioreactor by Brevibacillus parabrevis using coconut shell bio-char

Author

Ram Sharan Singh, Balendu Shekher Giri, Mandavi Goswami, Birendra Nath Rai, Abu Talha, and Anjaney Sharma

Subjects

Cocos, 0106 biological sciences, Environmental Engineering, India, Bioengineering, 010501 environmental sciences, 01 natural sciences, chemistry.chemical_compound, Bioreactors, Bioremediation, 010608 biotechnology, Biochar, Bioreactor, Waste Management and Disposal, 0105 earth and related environmental sciences, Packed bed, Chromatography, Brevibacillus, biology, Renewable Energy, Sustainability and the Environment, Congo Red, General Medicine, biology.organism_classification, Congo red, Biodegradation, Environmental, chemistry, Brevibacillus brevis, Degradation (geology)

Abstract

In the present study, bacterial species capable of degrading colour waste were isolated from the water bodies located near the carpet cluster in the Bhadohi district of U.P., India. Among the isolated species best one was selected on the basis of its capability to degrade Congo red in batch experiments using NaCl-Yeast as the nutrient media and further it was identified as Brevibacillus parabrevis using 16S rDNA sequencing. The process parameters were optimized for maximum degradation in batch experiments and found out to be: Inoculum size: 3 ml, Temperature: 30 °C, Time: 6 days leading to a removal of 95.71% of dye sample. The experiment showed that bacteria immobilized with coconut shell biochar in continuous mode showed much better degradation than batch study without immobilization. The kinetics parameters μmax, Ks, and μmaxKs were found to be 0.461 per day, 39.44 mg/day, and 0.0117 L/mg/day using Monod model.

Published

2018

17. Decolorization and biodegradation of congo red dye by a novel white rot fungus Alternaria alternata CMERI F6.

Author

Chakraborty, Samayita, Basak, Bikram, Dutta, Subhasish, Bhunia, Biswanath, and Dey, Apurba

Subjects

*DYES & dyeing, *BIODEGRADATION, *ALTERNARIA alternata, *PARAMETER estimation, *FUNGAL morphology, *SEPARATION (Technology)

Abstract

Highlights: [•] Optimum physicochemical parameters for congo red decolorization were determined. [•] Effect of different heavy metals on congo red decolorization was evaluated. [•] Characterization of fungal morphology after dye removal was done using SEM and XRD. [•] Congo red biodegradation analysis was done using HPLC and FTIR. [•] Evaluation of dye retention properties of the fungus by TG-DTA analysis. [Copyright &y& Elsevier]

Published

2013

18. Novel magnetic chitosan/poly(vinyl alcohol) hydrogel beads: Preparation, characterization and application for adsorption of dye from aqueous solution

Author

Zhu, H.-Y., Fu, Y.-Q., Jiang, R., Yao, J., Xiao, L., and Zeng, G.-M.

Subjects

*CHITOSAN, *CONGO red (Staining dye), *ADSORPTION (Chemistry), *DYES & dyeing, *AQUEOUS solutions, *CRYSTAL structure, *MAGNETIZATION, *X-ray diffraction, *THERMOGRAVIMETRY

Abstract

Abstract: Novel magnetic chitosan/poly(vinyl alcohol) hydrogel beads (m-CS/PVA HBs) were prepared by an instantaneous gelation method and characterized by X-ray diffraction (XRD), vibrating sample magnetometry (VSM) and thermogravimetric analysis (TGA). Results of characterization indicated that m-CS/PVA HBs have been prepared successfully without damaging the crystal structure of Fe3O4 and their saturation magnetization were about 21.96emug−1. The adsorption capacity of Congo Red on the m-CS/PVA HBs was 470.1mgg−1. The adsorption was well described by pseudo-second-order kinetics and Langmuir equation. Positive value of enthalpy change (13.32kJmol−1) showed that the adsorption was endothermic and physical in nature. The values of Gibbs free energy change were found to be −3.321kJmol−1 at 298K for m-CS/PVA HBs, indicating the spontaneity of Congo Red adsorption. Therefore, the m-CS/PVA HBs could be employed as a low-cost alternative to other adsorbents in the removal of dyes from aqueous solution. [Copyright &y& Elsevier]

Published

2012

19. Simultaneous Congo red decolorization and electricity generation in air-cathode single-chamber microbial fuel cell with different microfiltration, ultrafiltration and proton exchange membranes

Author

Hou, Bin, Sun, Jian, and Hu, Yong-you

Subjects

*CONGO red (Staining dye), *COLOR removal in water purification, *ELECTRIC power production, *CATHODES, *MICROBIAL fuel cells, *ULTRAFILTRATION, *PROTON exchange membrane fuel cells, *MEMBRANE separation

Abstract

Abstract: Different microfiltration membrane (MFM), proton exchange membrane (PEM) and ultrafiltration membranes (UFMs) with different molecular cutoff weights of 1K (UFM-1K), 5K (UFM-5K) and 10K (UFM-10K) were incorporated into air-cathode single-chamber microbial fuel cells (MFCs) which were explored for simultaneous azo dye decolorization and electricity generation to investigate the effect of membrane on the performance of the MFC. Batch test results showed that the MFC with an UFM-1K produced the highest power density of 324mW/m2 coupled with an enhanced coulombic efficiency compared to MFM. The MFC with UMF-10K achieved the fastest decolorization rate (4.77mg/L h), followed by MFM (3.61mg/L h), UFM-5K (2.38mg/L h), UFM-1K (2.02mg/Lh) and PEM (1.72mg/Lh). These results demonstrated the possibility of using various membranes in the system described here, and showed that UFM-1K was the best one based on the consideration of both cost and performance. [Copyright &y& Elsevier]

Published

2011

20. Biosorption of Acid Black 172 and Congo Red from aqueous solution by nonviable Penicillium YW 01: Kinetic study, equilibrium isotherm and artificial neural network modeling

Author

Yang, Yuyi, Wang, Guan, Wang, Bing, Li, Zeli, Jia, Xiaoming, Zhou, Qifa, and Zhao, Yuhua

Subjects

*CONGO red (Staining dye), *PENICILLIUM, *SOLUTION (Chemistry), *ATMOSPHERIC temperature, *ARTIFICIAL neural networks, *BIOMASS, *GENETIC algorithms, *FOURIER transform infrared spectroscopy, *SCANNING electron microscopy, *CHEMICAL processes, *COLOR removal (Sewage purification)

Abstract

Abstract: The main objective of this work was to investigate the biosorption performance of nonviable Penicillium YW 01 biomass for removal of Acid Black 172 metal-complex dye (AB) and Congo Red (CR) in solutions. Maximum biosorption capacities of 225.38 and 411.53mgg−1 under initial dye concentration of 800mgL−1, pH 3.0 and 40°C conditions were observed for AB and CR, respectively. Biosorption data were successfully described with Langmuir isotherm and the pseudo-second-order kinetic model. The Weber-Morris model analysis indicated that intraparticle diffusion was the limiting step for biosorption of AB and CR onto biosorbent. Analysis based on the artificial neural network and genetic algorithms hybrid model indicated that initial dye concentration and temperature appeared to be the most influential parameters for biosorption process of AB and CR onto biosorbent, respectively. Characterization of the biosorbent and possible dye-biosorbent interaction were confirmed by Fourier transform infrared spectroscopy and scanning electron microscopy. [ABSTRACT FROM AUTHOR]

Published

2011

21. Colour removal of dyes from synthetic and real textile wastewaters in one- and two-stage anaerobic systems

Author

Firmino, Paulo Igor M., da Silva, Marcos Erick R., Cervantes, Francisco J., and dos Santos, André B.

Subjects

*COLOR removal (Sewage purification), *ANAEROBIC bacteria, *ACTIVATED sludge process, *DYES & dyeing, *TEXTILE waste, *WASTEWATER treatment, *AZO dyes, *CONGO red (Staining dye), *MICROORGANISMS

Abstract

Abstract: Decolourisation of the azo dye model compound, Congo Red (CR), and real textile wastewater, was assessed in one- and two-stage anaerobic treatment systems (R1 and R2, respectively). High colour removals were achieved in both treatment systems even when a very high CR concentration (1.2mM) was applied. However, R2 presented a slightly better stability, in which the acidogenic reactor (R2,A) played a major role on dye reduction, as compared to the methanogenic reactor (R2,M), evidencing the role of fermentative microorganisms. The minimum electron donor concentration required to sustain dye reduction was much higher than the stoichiometric amount. Additionally, a decrease on the hydraulic retention time (from 24 to 12h) did not significantly affect decolourisation, indicating that electron transfer was not a concern. Finally, experiments with real textile wastewater showed low decolourisation efficiencies in both systems, most likely due to the presence of dyes not susceptible to reductive decolourisation under these experimental conditions. [Copyright &y& Elsevier]

Published

2010

22. Adsorption of congo red by chitosan hydrogel beads impregnated with carbon nanotubes

Author

Chatterjee, Sudipta, Lee, Min W., and Woo, Seung H.

Subjects

*WATER purification adsorption, *CONGO red (Staining dye), *CHITOSAN, *HYDROGELS, *CARBON nanotubes, *SULFUR, *X-ray spectroscopy, *ATMOSPHERIC temperature, *COLOR removal in water purification

Abstract

Abstract: The adsorption performance of chitosan (CS) hydrogel beads was investigated after multiwalled carbon nanotubes (MWCNTs) impregnation for the removal of congo red (CR) as an anionic dye. The study of the adsorption capacity of CS/CNT beads as a function of the CNT concentration indicated that 0.01% CNT impregnation was the most useful for enhancing the adsorption capacity. The sulfur (%) in the CS/CNT beads measured by energy dispersive X-ray (EDX) was 2.5 times higher than that of normal CS beads after CR adsorption. Equilibrium adsorption isotherm data of the CS/CNT beads exhibited better fit to the Langmuir isotherm model than to the Freundlich isotherm model, and the heterogeneity factor (n) value of the CS/CNT beads calculated from the Sips isotherm model was close to unity (0.98). The maximum adsorption capacity of CS/CNT beads obtained from the Langmuir model was 450.4mgg−1. [Copyright &y& Elsevier]

Published

2010

23. Anthraquinone-2,6-disulfonate (AQDS) as a catalyst to enhance the reductive decolourisation of the azo dyes Reactive Red 2 and Congo Red under anaerobic conditions

Author

Costa, M.C., Mota, S., Nascimento, R.F., and Dos Santos, A.B.

Subjects

*COLOR removal (Sewage purification), *ANAEROBIC digestion, *ANTHRAQUINONES, *SULFONATES, *AZO dyes, *CATALYSTS, *CONGO red (Staining dye), *OXIDATION-reduction reaction, *BIOREACTORS

Abstract

Abstract: In this study, we assessed the catalytic effect of anthraquinone-2,6-disulfonate (AQDS) to enhance the reductive decolourisation of the azo dyes Reactive Red 2 and Congo Red in batch and continuous-flow experiments. While testing the anaerobic sludge 1 in assays free of AQDS, the highest values for the first-order kinetic constant (k1) were found with co-substrates formate and glucose. In the assays that contained 50μM of AQDS, the k1 values increased with all co-substrates tested, increasing by 3.5-fold when ethanol was the electron donor. The upflow anaerobic sludge blanket (UASB) reactors R1 (AQDS-free) and R2 (AQDS-supplemented) reached excellent decolourisation efficiencies (higher than 90%) even for the high Congo Red concentration tested (1.2mM). However, electron donor depletion in the influent drastically decreased the colour removal capacity in both bioreactors. Reactor R2 presented higher stability and decolourisation efficiency compared to R1, indicating that the addition of a redox mediator can be valuable for treating dye-coloured wastewaters. [Copyright &y& Elsevier]

Published

2010

24. Bacillus sp. mutant for improved biodegradation of Congo red: Random mutagenesis approach

Author

Gopinath, Kannappan Panchamoorthy, Murugesan, Shreela, Abraham, Joanna, and Muthukumar, Karuppan

Subjects

*BACILLUS (Bacteria), *BIODEGRADATION, *CONGO red (Staining dye), *GENETIC mutation, *MUTAGENESIS, *BLEACHING (Chemistry), *ENZYME kinetics, *POLYACRYLAMIDE gel electrophoresis

Abstract

Abstract: This study presents the improved biodegradation of Congo red, a toxic azo dye, using mutant Bacillus sp. obtained by random mutagenesis of wild Bacillus sp. using UV and ethidium bromide. The mutants obtained were screened based on their decolorization performance and best mutants were selected for further studies. Better decolorization was observed in the initial Congo red concentration range 100–1000mg/l for wild species whereas mutant strain was found to offer better decolorization up to 3000mg/l. Mutant strain offered 12–30% reduction in time required for the complete decolorization by wild strain. The optimum pH and temperature were found to be 7.0 and 37°C, respectively. Two efficient strains such as Bacillus sp. ACT 1 and Bacillus sp. ACT 2 were isolated from the various mutants obtained. Bacillus sp. ACT 2 showed improved enzymatic production and Bacillus sp. ACT 1 showed improved growth compared to wild strain. The enzyme responsible for the degradation was found to be azoreductase by SDS–PAGE and about 53% increased production of enzyme was achieved with mutant species. The experimental data were modeled using growth and substrate inhibition models. [Copyright &y& Elsevier]

Published

2009

25. Congo red adsorption from aqueous solutions by using chitosan hydrogel beads impregnated with nonionic or anionic surfactant

Author

Chatterjee, Sudipta, Lee, Dae S., Lee, Min W., and Woo, Seung H.

Subjects

*ADSORPTION (Chemistry), *CHITOSAN, *SURFACE active agents, *DYES & dyeing, *COLOR removal (Sewage purification), *AZO dyes, *CONGO red (Staining dye)

Abstract

The adsorption performance of CS beads impregnated with triton X-100 (TX-100) as a nonionic surfactant and sodium dodecyl sulfate (SDS) as an anionic surfactant was investigated for the removal of anionic dye (congo red) from aqueous solution. While the adsorption capacity of CS/TX-100 beads was enhanced at all concentrations of TX-100 (0.005–0.1%), the increase in the concentration of SDS above 0.01% in the CS/SDS beads gradually reduced the adsorption capacity of the beads. Equilibrium adsorption isotherm data indicated a good fit to the Sips isotherm model and a heterogeneous adsorption process. The Sips maximum adsorption capacity in dry weight of the CS/TX-100 beads was 378.79mg/g and 318.47mg/g for the CS/SDS beads, higher than the 223.25mg/g of the CS beads. Modification of CS beads by impregnation with nonionic surfactant, or even anionic surfactant, at low concentrations is a possible way to enhance adsorption of anionic dye. [Copyright &y& Elsevier]

Published

2009

26. Enhanced adsorption of congo red from aqueous solutions by chitosan hydrogel beads impregnated with cetyl trimethyl ammonium bromide

Author

Chatterjee, Sudipta, Lee, Dae S., Lee, Min W., and Woo, Seung H.

Subjects

*SURFACE active agents, *CHITOSAN, *CONGO red (Staining dye), *AZO dyes, *COLOR removal (Sewage purification), *ABSORPTION, *WASTEWATER treatment

Abstract

Abstract: The adsorption of congo red (CR) onto chitosan (CS) beads impregnated by a cationic surfactant (CTAB, cetyl trimethyl ammonium bromide) was investigated. Chitosan beads impregnated at a ratio of 1/20 of CTAB to CS (0.05% of CTAB and 1% of CS) increased the CR adsorption capacity by 2.2 times from 162.3mg/g (0% CTAB) to 352.5mg/g (0.05% CTAB). The CR adsorption decreased with an increase in pH of the CR solution from 4.0 to 9.0. The Sips isotherm model showed a good fit with the equilibrium experimental data and the values of the heterogeneity factor (n) indicated heterogeneous adsorption of CR onto CS/CTAB beads, as well as CS beads. The kinetic data showed better fit to the pseudo second-order rate model than to the pseudo first-order rate model. The impregnation of CS beads by cationic surfactants showed the highest adsorption capacities of CR compared to any other adsorbents and would be a good method to increase adsorption efficiency for the removal of anionic dyes in a wastewater treatment process. [Copyright &y& Elsevier]

Published

2009

27. Innovative constructed wetland coupled with microbial fuel cell for enhancing diazo dye degradation with simultaneous electricity generation.

Author

Saket, Palak, Mittal, Yamini, Bala, Kiran, Joshi, Abhijeet, and Kumar Yadav, Asheesh

Subjects

*MICROBIAL fuel cells, *CONSTRUCTED wetlands, *ELECTRIC power production, *AZO dyes, *RENEWABLE energy sources, *CHEMICAL oxygen demand, *CONGO red (Staining dye)

Abstract

[Display omitted] • A novel dual-chambered unplanted constructed wetland-microbial fuel cell was developed. • Cathodic aeration facilitated the degradation of aromatic intermediates of Congo red. • A significant reduction in phytotoxicity levels of treated effluents was achieved. • Novel design substantially reduced internal resistance value of CW-MFC to 100 Ω. • Appreciable electricity generation of 235.94 mW/m3 of 1176.4 mA/m3 was achieved. A novel earthen separator-based dual-chambered unplanted core of constructed wetland coupled with microbial fuel cell was developed for studying the microbe-material interaction and their effect on treatment performance and electricity generation. The constructed wetland integrated microbial fuel cell was evaluated for the degradation of high molecular weight diazo Congo red dye as a model pollutant. The system exhibited 89.99 ± 0.04% of dye decolorization and 95.80 ± 0.71% of chemical oxygen demand removal efficiency from an initial concentration of 50 ± 10 mg/L and 750 ± 50 mg/L, respectively. Ultraviolet–Visible spectrophotometric and gas chromatography-mass spectrometric analysis revealed naphthalene and phenol as mineralized products. The developed system achieved high power density and current density generation of 235.94 mW/m3 and 1176.4 mA/m3, respectively. Results manifested that dual-chambered constructed wetland coupled with microbial fuel cell has a high capability of dye decolorization and toxicity abatement with appreciable simultaneous bioelectricity generation owing to the significantly low internal resistance of 100 Ω. [ABSTRACT FROM AUTHOR]

Published

2022

28. Activated carbons from waste Cassia bakeriana seed pods as high-performance adsorbents for toxic anionic dye and ciprofloxacin antibiotic remediation.

Author

Theamwong, Nidchakarn, Intarabumrung, Wimonsiri, Sangon, Suwiwat, Aintharabunya, Suphattra, Ngernyen, Yuvarat, Hunt, Andrew J., and Supanchaiyamat, Nontipa

Subjects

*ACTIVATED carbon, *SEED pods, *SORBENTS, *CONGO red (Staining dye), *CASSIA (Genus), *CIPROFLOXACIN, *METHYLENE blue

Abstract

[Display omitted] • Graphitic porous carbons have been prepared from Cassia bakeriana seed pods. • KOH activation yielded a carbon with a high proportion of aromaticity. • KOH activated carbon exhibited a high adsorption capacity (970 mg/g) for congo red. • The adsorption capacity is among the highest reported values for carbon materials. • The carbon also showed a high adsorption capacity for ciprofloxacin at 600 mg/g. Waste Cassia bakeriana seed pods were used for porous carbon production in a facile pyrolysis process. The carbons were highly efficient adsorbents for methylene blue, congo red and ciprofloxacin antibiotic from aqueous media. The experimental results demonstrated that despite moderate surface area of 283.4 m2/g, KOH activated carbon (PSAC-KOH) exhibited the highest adsorption capacity for congo red reported to date for carbon-based adsorbents (970 mg/g). PSAC-KOH also demonstrated a high adsorption capacity at 600 mg/g for ciprofloxacin. Raman spectroscopy, X-ray diffraction and X-ray Photoelectron spectroscopy analysis of the carbons demonstrated an extensive graphitic characteristic, while Fourier transform infrared spectra of PSAC-KOH suggested a high proportion of aromaticity which promotes adsorption mechanisms including electrostatic and π-π interactions. Pseudo-second-order kinetic model fitting suggested a rate-controlling chemisorption mechanism. The utilization of waste Cassia bakeriana seed pods for carbon production may create new opportunities to develop sustainable and highly efficient adsorbents for water remediation. [ABSTRACT FROM AUTHOR]

Published

2021

29. Use of rice husk for the adsorption of congo red from aqueous solution in column mode

Author

Han, Runping, Ding, Dandan, Xu, Yanfang, Zou, Weihua, Wang, Yuanfeng, Li, Yufei, and Zou, Lina

Subjects

*STRAW, *SOLUTION (Chemistry), *RICE, *ADSORPTION (Chemistry)

Abstract

Abstract: A continuous fixed bed study was carried out by using rice husk as a biosorbent for the removal of congo red (CR) from aqueous solution. The effects of important factors, such as the value of initial pH, existing salt, the flow rate, the influent concentration of CR and bed depth, were studied. Data confirmed that the breakthrough curves were dependent on flow rate, initial dye concentration and bed depth. Thomas, Adams–Bohart, and Yoon–Nelson models were applied to experimental data to predict the breakthrough curves using non-linear regression and to determine the characteristic parameters of the column useful for process design, while bed depth/service time analysis (BDST) model was used to express the effect of bed depth on breakthrough curves. The results showed that Thomas model was found suitable for the normal description of breakthrough curve at the experimental condition, while Adams–Bohart model was only for a initial part of dynamic behavior of the rice husk column. The data were in good agreement with BDST model. It was concluded that the rice husk column can remove CR from solution. [Copyright &y& Elsevier]

Published

2008

30. Adsorption properties of congo red from aqueous solution onto N,O-carboxymethyl-chitosan

Author

Wang, Li and Wang, Aiqin

Subjects

*SEPARATION (Technology), *SURFACE chemistry, *ADSORPTION (Chemistry), *AZO dyes

Abstract

Abstract: N,O-carboxymethyl-chitosans (N,O-CMC) with different degree of substitution (DS) were synthesized under heterogeneous conditions by controlling the reaction temperature. The factors influencing adsorption capacity of N,O-CMC such as the DS of N,O-CMC, initial pH value of the dye solution and adsorption temperature for anionic dye congo red (CR) were investigated. Compared with chitosan (78.90mg/g), N,O-CMC with the DS of 0.35 exhibited much higher adsorption capacity (330.62mg/g) for CR at the same adsorption conditions. The adsorption kinetics and isotherms showed that the sorption processes were better fitted by pseudo-second-order equation and the Langmuir equation, respectively. The adsorption mechanism of N,O-CMC was also discussed by means of IR and XPS spectra. The results in this study indicated that N,O-CMC was an attractive candidate for removing CR from the dye wastewater. [Copyright &y& Elsevier]

Published

2008

31. Comparative studies on removal of Congo red by native and modified mycelial pellets of Trametes versicolor in various reactor modes

Author

Binupriya, A.R., Sathishkumar, M., Swaminathan, K., Kuz, C.S., and Yun, S.E.

Subjects

*SEPARATION (Technology), *SURFACE chemistry, *ADSORPTION (Chemistry), *BIOMASS

Abstract

Summary: Aerated and rotated mode adsorption experiments were carried out for the removal of Congo red from aqueous solution using native and pre-treated mycelial pellets/biomass of Trametes versicolor. The effect of process parameters like contact time, dosage of adsorbent, adsorbate concentration and pH on adsorption was investigated. Higher the dye concentration lower was the adsorption. Equilibrium time was attained at 90min. Increase in biomass dosage increased the adsorption. Experimental data were analyzed by the Langmuir and Temkin isotherms. Adsorption capacity (Q o ) of autoclaved biomass was 51.81mg/g, which was higher than other biomass studied. The second order kinetic model by Ho and Mckay described well the experimental data. Acidic pH was favorable for the adsorption of Congo red. Studies on pH effect and desorption show that chemisorption seems to play a major role in the adsorption process. Among the native and pre-treated biomass studied, autoclaved biomass showed a better adsorption capacity. Utilization of autoclaved biomass is much safer as it does not pose any threat to environment. Aerated mode showed a better adsorption capacity when compared to rotated mode. [Copyright &y& Elsevier]

Published

2008

32. Potential plant growth-promoting strain Bacillus sp. SR-2-1/1 decolorized azo dyes through NADH-ubiquinone:oxidoreductase activity

Author

Muhammad Shahid, Sabir Hussain, Faisal Mahmood, Muhammad Tahir, Athar Hussain, Tanvir Shahzad, Muhammad Ijaz, Khalid Mahmood, Muhammad Imran, and Shahid Ali Khan Babar

Subjects

0301 basic medicine, Environmental Engineering, Ubiquinone, Bacillus, Bioengineering, 010501 environmental sciences, INDUSTRY, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Bioinformatics analysis, REMOVAL, Bioremediation, Oxidoreductase, RNA, Ribosomal, 16S, Coloring Agents, Waste Management and Disposal, DETOXIFICATION, 0105 earth and related environmental sciences, chemistry.chemical_classification, Strain (chemistry), biology, Renewable Energy, Sustainability and the Environment, EFFLUENT, Decolorization, General Medicine, DEGRADATION, NAD, Phosphate, Enzyme assay, Congo red, Biodegradation, Environmental, 030104 developmental biology, Enzyme, chemistry, Biochemistry, AZOREDUCTASE, PGPR, ACC DEAMINASE, METAL, biology.protein, TECHNOLOGIES, Molecular identification, NAD+ kinase, Azo Compounds, RHIZOBACTERIA

Abstract

In this study, a bacterial strain SR-2-1/1 was isolated from textile wastewater-irrigated soil for its concurrent potential of plant growth promotion and azo-dye decolorization. Analysis of 16S rRNA gene sequence confirmed its identity as Bacillus sp. The strain tolerated high concentrations (i.e. up to 1000 mg L-1) of metals (Ni2+, Cd2+, Co2+, Zn2+, and Cr6+) and efficiently decolorized the azo dyes (i.e. reactive black-5, reactive red-120, direct blue-1 and congo red). It also demonstrated considerable in vitro phosphate solubilizing and 1-aminocyclopropane-1-carboxylic acid deaminase abilities at high metal and salt levels. Bioinformatics analysis of its 537 bp azoreductase gene and deduced protein revealed that it decolorized azo dyes through NADH-ubiquinone: oxidoreductase enzyme activity. The deduced protein was predicted structurally and functionally different to those of its closely related database proteins. Thus, the strain SR-2-1/1 is a powerful bioinoculant for bioremediation of textile wastewater contaminated soils in addition to stimulation of plant growth. (C) 2017 Elsevier Ltd. All rights reserved.

Published

2017

33. Enhanced bioelectricity generation and azo dye treatment in a reversible photo-bioelectrochemical cell by using novel anthraquinone-2,6-disulfonate (AQDS)/MnO x -doped polypyrrole film electrodes

Author

Xu Wenjing, Zuoyi Yang, Yen-Ping Peng, Guoguang Liu, Xun-an Ning, Jingyong Liu, Jian Sun, Ken-Lin Chang, Yu Huang, Ku-Fan Chen, Cai Bihai, Yujie Wang, Yaping Zhang, and Jiahong Kuo

Subjects

Environmental Engineering, Renewable Energy, Sustainability and the Environment, Bioengineering, Nanotechnology, 02 engineering and technology, General Medicine, 010501 environmental sciences, 021001 nanoscience & nanotechnology, Polypyrrole, 01 natural sciences, Anthraquinone, Mineralization (biology), Congo red, Anode, law.invention, chemistry.chemical_compound, Electron transfer, chemistry, Magazine, law, Electrode, 0210 nano-technology, Waste Management and Disposal, 0105 earth and related environmental sciences, Nuclear chemistry

Abstract

A novel anthraquinone-2,6-disulfonate/MnOx-doped polypyrrole film (AQDS/Mn/PPy) electrode was prepared by one-step electropolymerization method and was used to improve performance of a reversible photo-bioelectrochemical cell (RPBEC). The RPBEC was operated in polarity reversion depended on dark/light reaction of alga Chlorella vulgaris by which sequential decolorization of azo dye and mineralization of decolorization products coupled with bioelectricity generation can be achieved. The results showed that formation of uniform AQDS/Mn/PPy film significantly enhanced electroactive surface area and electrocatalytic activity of carbon electrode. The RPBEC with AQDS/Mn/PPy electrodes demonstrated 77% increases in maximum power and 73% increases in Congo red decolorization rate before polarity reversion, and 198% increases in maximum power and 138% increases in decolorization products mineralization rate after polarity reversion, respectively, compared to the RPBEC with bare electrode. This was resulted from simultaneous dynamics improvement in half-reaction rate of anode and photo-biocathode due to enhanced electron transfer and algal-bacterial biofilm formation.

Published

2017

34. Dye biosorption sites in Aspergillus niger

Author

Fu, Yuzhu and Viraraghavan, T.

Subjects

*ASPERGILLUS niger, *FUNCTIONAL groups

Abstract

Aspergillus niger is capable of removing dyes from an aqueous solution. In the study, the roles played by three major functional groups: carboxyl, amino and phosphate, and the lipid fraction in the biomass of A. niger in biosorption of four dyes, Basic Blue 9, Acid Blue 29, Congo Red and Disperse Red 1, were investigated. These functional groups in A. niger were chemically modified individually to determine their contribution to the biosorption of dyes. It was found that biosorption of dyes was influenced by the functional groups in the fungal biomass and the chemical structure of the dyes. [Copyright &y& Elsevier]

Published

2002

35. Biodegradation of Congo red dye in a moving bed biofilm reactor: Performance evaluation and kinetic modeling

Author

Balendu Shekhar Giri, Birendra Nath Rai, Ravi Kumar Sonwani, Ram Sharan Singh, and Ganesh Swain

Subjects

0106 biological sciences, Environmental Engineering, Central composite design, Kinetics, Bioengineering, 010501 environmental sciences, 01 natural sciences, Waste Disposal, Fluid, law.invention, chemistry.chemical_compound, Bioreactors, Magazine, law, 010608 biotechnology, Response surface methodology, Waste Management and Disposal, 0105 earth and related environmental sciences, Renewable Energy, Sustainability and the Environment, Chemistry, Moving bed biofilm reactor, Congo Red, General Medicine, Biodegradation, Volumetric flow rate, Congo red, Biodegradation, Environmental, Biofilms, Nuclear chemistry

Abstract

The biodegradation of Congo red dye was performed using polyurethane foam-polypropylene immobilized Bacillus sp. MH587030.1 in a moving bed biofilm reactor (MBBR). The central composite design (CCD) based response surface methodology (RSM) was used to optimize the process parameters; pH, Congo red concentration, and media filling ratio, and optimum conditions were observed to be 7.0, 50 mg/L, and 45%, respectively in batch MBBR. At optimum condition, MBBR was operated in continuous mode at different flow rates (25–100 mL/h) over a period of 564 h. The maximum removal efficiency (RE) and elimination capacity (EC) were obtained as 95.7% and 57.6 mg/L·day, respectively under steady-state. The kinetics of Congo red biodegradation at various flow rates were evaluated by a modified Stover-Kincannon model, and kinetic constants; KB and Umax were found to be 0.253 g/L·day and 0.263 g/L·day, respectively.

Published

2019

36. Fluffy honeycomb-like activated carbon from popcorn with high surface area and well-developed porosity for ultra-high efficiency adsorption of organic dyes

Author

Yun Yu, Danjun Wang, Feng Fu, Wei Liu, Bin Xu, Ruiqi Cao, Ning Qiao, Ran Wang, and Qizhen Zhu

Subjects

0106 biological sciences, Environmental Engineering, Materials science, Bioengineering, 010501 environmental sciences, 01 natural sciences, chemistry.chemical_compound, Adsorption, 010608 biotechnology, medicine, Methyl orange, Rhodamine B, Porosity, Coloring Agents, Waste Management and Disposal, 0105 earth and related environmental sciences, Renewable Energy, Sustainability and the Environment, Carbonization, food and beverages, General Medicine, Carbon, Congo red, Methylene Blue, chemistry, Chemical engineering, Charcoal, Methylene blue, Activated carbon, medicine.drug

Abstract

Fluffy honeycomb-like activated carbon with ultra-high surface area and well-developed hierarchical porous structure is simply prepared from popcorn by NaOH activation as adsorbent for dye removal. The popcorn has an unique fluffy structure, which originates from the corn via a rapid puffing process and is reserved during the following carbonization and NaOH activation. The ultra-high surface area and developed hierarchical porous structure make PDAC-4 show an outstanding adsorption capacity of 7765 mg·g−1 for Rhodamine B (2500 mg·L−1), which is several times higher than those of the adsorbents ever reported. Moreover, PDAC-4 also has excellent adsorption performance for other dyes, such as Congo Red, Methylene Blue and Methyl Orange. The superior adsorption performance of PDACs to organic dyes opens its potential application in the purification of dye wastewater.

Published

2019

37. Biodegradation of Congo red dye using polyurethane foam-based biocarrier combined with activated carbon and sodium alginate: Batch and continuous study.

Author

Lal Maurya K, Swain G, Kumar Sonwani R, Verma A, and Sharan Singh R

Subjects

Alginates, Biodegradation, Environmental, Bioreactors, Charcoal, Humans, Polyurethanes, Coloring Agents, Congo Red

Abstract

Dyes are an important class of organic pollutants and are well known for their adverse effects on aquatic life and human beings. In this work, an effort has been made to treat the dye-containing wastewater using modified biocarriers in packed bed bioreactors (PBBRs). Lysinibacillus sp. immobilized polyurethane foam combined with activated carbon and sodium alginate was used for the biodegradation of Congo red dye. The optimum values of process time, glucose concentration, and dye concentration were obtained to be 4.0 days, 2.0 g/L, and 50 mg/L, respectively. The maximum dye removal efficiency (RE) of 92.63 % was obtained at the optimized conditions. The continuous PBBR offered a maximum RE and elimination capacity of 90.73% and 10.89 mg/L. d, respectively, at an inlet loading rate of 12 mg/L. d. Moreover, the growth kinetic of Lysinibacillus sp. was well predicted by the Andrew-Haldane model with a regression coefficient of 0.98., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

38. Highly efficient removal of dyes from wastewater using nanocellulose from quinoa husk as a carrier for immobilization of laccase.

Author

Ariaeenejad S, Motamedi E, and Salekdeh GH

Subjects

Coloring Agents, Congo Red, Enzymes, Immobilized metabolism, Wastewater, Chenopodium quinoa metabolism, Laccase metabolism

Abstract

In this study, the synthesis of nanocellulose (NC) from an agro-waste of quinoa husks (QS) was reported for the first time. The NC nano-carrier was utilized for immobilization of a model laccase enzyme (PersiLac1) providing an innovative, green, and practical nano-biocatalyst for efficient removal of two different model dyes (malachite green (MG) and congo red (CR)) from water. This nano-biocatalyst developed a synergistic adsorption-degradation approach leading the dye molecules easily gathered near the nano-carrier by adsorption and then degraded effectively by the enzyme. Upon enzyme immobilization, the dye removals (%) were remarkably improved for both 150 mg/L of dyes (from 54% and 12%, for MG and CR, respectively, in case of the pristine NCs, to 98% and 60% for the immobilized enzyme). The immobilized PersiLac1 could decolorize the concentrated dye solutions and showed superior reusability (up to 83% dye removal after 18th runs for MG) and remarkable performance from complex real textile effluents., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

39. Removal behaviors and mechanisms for series of azo dye wastewater by novel nano constructed macro-architectures material

Author

Renjun Wang, Hanhan Xue, Junhan Yang, Keyan Fan, Zeng Zhixin, Junfeng Chen, Hanwen Hu, Jiaqi Yang, Yanyan Liu, and Yuping Tian

Subjects

0106 biological sciences, Environmental Engineering, Materials science, Bioengineering, Wastewater, 010501 environmental sciences, 01 natural sciences, chemistry.chemical_compound, Adsorption, 010608 biotechnology, Nano, Freundlich equation, Coloring Agents, Waste Management and Disposal, 0105 earth and related environmental sciences, Renewable Energy, Sustainability and the Environment, Congo Red, General Medicine, Hydrogen-Ion Concentration, Congo red, Kinetics, Adsorption kinetics, Chemical engineering, chemistry, Chemisorption, Reaction model, Azo Compounds, Water Pollutants, Chemical

Abstract

A novel macro-architectures material Fe3O4-N-GO@sodium alginate (SA) gel film was successfully produced, which was used to remove series azo dye wastewater. The optimal adsorption rates were attained, which achieved the maximum removal efficiency of 74.22%, 45.72%, 37.75% for Congo Red, Acid Orange 7 and Amino Black 10B respectively, under the condition that the mass ratio of Fe3O4-N-GO to sodium alginate was 0.11. The optimal adsorption temperature for three dyes was 30 ℃ and the adsorption equilibrium was reached at 150 min. The adsorption kinetic model of Fe3O4-N-GO@SA for the three azo dyes conformed to the quasi-second-order reaction model, and the adsorption isotherm was more in line with the Freundlich adsorption. The adsorption mechanism was multi-layer heterogeneous adsorption under the combined action of physical adsorption and chemisorption, and chemisorption was the main step of controlling the speed. The study would provide theoretical basis for the application of macro-architectures material in environment.

Published

2021

40. Fabrication of core–shell structured magnetic nanocellulose base polymeric ionic liquid for effective biosorption of Congo red dye

Author

Mostafa Hossein Beyki, Mehrnoosh Bayat, and Farzaneh Shemirani

Subjects

Environmental Engineering, Materials science, Sorbent, Ionic Liquids, Bioengineering, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Water Purification, Nanocellulose, Magnetics, symbols.namesake, chemistry.chemical_compound, Adsorption, Organic chemistry, Epichlorohydrin, Cellulose, Waste Management and Disposal, 0105 earth and related environmental sciences, Ions, Renewable Energy, Sustainability and the Environment, Biosorption, Langmuir adsorption model, Congo Red, General Medicine, 021001 nanoscience & nanotechnology, Congo red, Solutions, chemistry, Chemical engineering, Ionic liquid, symbols, Nanoparticles, 0210 nano-technology

Abstract

Ionic liquids are considered to be a class of environmentally friendly compounds as combination of them with bioresource polymeric substances such as; cellulose, constitute emerging coating materials. Biosorption by polymeric ionic liquids exhibits an attractive green way that involves low cost and irrespective of toxicity. As a result, a novel polymeric ionic liquid has been developed by the reaction of one step synthesized Fe3O4-cellulose nanohybrid, epichlorohydrin and 1-methylimidazole and employed as a green sorbent for efficient biosorption of Congo red dye. Effective parameters on dye removing as well as their interactions were determined with response surface methodology (RSM). Congo red adsorption showed fast equilibrium time (11 min) with maximum uptake of 131 mg g−1. Isotherm study revealed that Langmuir adsorption model can better describe dye adsorption behavior. Regeneration of the sorbent was performed with a mixture of methanol–acetone–NaOH (3.0 mol L−1) solution.

Published

2016

41. Adsorptive removal of anionic dyes from aqueous solutions using microgel based on nanocellulose and polyvinylamine

Author

Qiucun Sun, Yongjian Xu, Qinghua Xu, and Liqiang Jin

Subjects

Anions, Environmental Engineering, Bioengineering, Water Purification, Nanocellulose, chemistry.chemical_compound, Adsorption, Polymer chemistry, Cellulose, Fourier transform infrared spectroscopy, Coloring Agents, Waste Management and Disposal, Nanocomposite, Aqueous solution, Renewable Energy, Sustainability and the Environment, Sodium periodate, Congo Red, General Medicine, Congo red, Kinetics, chemistry, Chemical engineering, Polyvinyls, Gels

Abstract

A novel nanocomposite microgel based on nanocellulose and amphoteric polyvinylamine (PVAm) was fabricated via a two-step method. Firstly, cellulose nanocrystal was oxidized by sodium periodate to yield dialdehyde nanocellulose (DANC). DANC was then used as a crosslinker to react with PVAm to obtain a pH responsive microgel with high density of free amine groups. The microgel was characterized using FTIR, XRD, AFM and elemental analysis. AFM images revealed that the nanocomposite was microspherical particles with a diameter ranging from 200 to 300nm. The microgel was found to be effective in anionic dye removal at acidic conditions. The adsorption isotherms for congo red 4BS, acid red GR and reactive light yellow K-4G fit well with the Sips model, and the maximum adsorption capacities were 869.1mgg(-1), 1469.7mgg(-1) and 1250.9mgg(-1), respectively. The adsorption for these three anionic dyes all followed pseudo second order kinetics, indicating a chemisorption nature.

Published

2015

42. Application of Arjuna (Terminalia arjuna) seed biochar in hybrid treatment system for the bioremediation of Congo red dye

Author

Reeta Rani Singhania, Arijit Dutta Gupta, Ravi Kumar Sonwani, Sudeep Yadav, Harinder Singh, Balendu Shekher Giri, Preeti Chaturvedi, Mandavi Goswami, Ram Sharan Singh, and Birendra Nath Rai

Subjects

0106 biological sciences, Environmental Engineering, Bioengineering, 010501 environmental sciences, Bacterial growth, 01 natural sciences, chemistry.chemical_compound, Bioremediation, 010608 biotechnology, Biochar, Bioreactor, Coloring Agents, Waste Management and Disposal, Effluent, 0105 earth and related environmental sciences, Packed bed, biology, Renewable Energy, Sustainability and the Environment, Chemistry, Congo Red, General Medicine, biology.organism_classification, Congo red, Biodegradation, Environmental, Charcoal, Seeds, Terminalia, Terminalia arjuna, Nuclear chemistry

Abstract

In the present study, a hybrid treatment system (biological and ozonation) was developed and used in the decolorization of Congo red (CR) dye. The biological treatment was performed in packed bed bioreactor (PBBR) containing Arjuna (Terminalia Arjuna) seeds biochar immobilized with Providencia stuartii, whereas ozonation was carried out in an ozone reactor. The process variables such as temperature, process time, and inoculum size were optimized and found to be 30 °C, 2 48 h, and 3 × 105 CFU/mL, respectively with 92.0 ± 5.0% of dye decolorization. Furthermore, biologically treated effluent was subject to ozone treatment for the decolorization of the remaining CR dye. The hybrid approach reveals almost complete decolorization of Congo red (CR) dye. The kinetic study of microbial growth was examined by Monod model. In addition, the cost analysis estimation for the removal of CR dye was done, and removal per liter was found to be economic.

Published

2020

43. Calcium-rich biochar from crab shell: An unexpected super adsorbent for dye removal

Author

Li He, Mingxiong He, Nengmin Zhu, Guoquan Hu, Furong Tan, Wenkun Zhu, Qin Zhou, and Lichun Dai

Subjects

Environmental Engineering, Brachyura, Bioengineering, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Water Purification, chemistry.chemical_compound, Adsorption, Biochar, Zeta potential, Animals, Malachite green, Coloring Agents, Waste Management and Disposal, 0105 earth and related environmental sciences, Renewable Energy, Sustainability and the Environment, Chemistry, Hydrogen bond, Cationic polymerization, General Medicine, 021001 nanoscience & nanotechnology, Congo red, Chemical engineering, Charcoal, Calcium, 0210 nano-technology, Pyrolysis, Water Pollutants, Chemical

Abstract

Adsorption is the common-used method to remove dyes from wastewater, and many efforts have been made to develop low-cost but excellent adsorbents. Here, calcium-rich biochar (CRB) as a low-cost adsorbent was directly prepared from crab shell via a simple pyrolysis process without any modification. Batch adsorption results suggested that CRB was among the dye adsorbents with highest adsorption capacities and fastest adsorption rate. Specifically, it showed high adsorption capacities of 12,502 and 20,317 mg/g for cationic malachite green and anionic Congo red, respectively. The adsorption equilibrium for Congo red onto CRB could be achieved as short as 2 min. Furthermore, the dye adsorption mechanism for CRB, as investigated by zeta potential and FTIR spectra, could be attributed to electrostatic attraction, hydrogen bonding and π-π interaction. Finally, this study suggested that, attributed to its cheap source, simple synthesis process and excellent adsorption performance, CRB was promising in dye removal.

Published

2018

44. Enhanced pathway efficiency of Saccharomyces cerevisiae by introducing thermo-tolerant devices

Author

Liu Yueqin, Nisi Jiang, Huan Sun, Chun Li, Zhanglin Lin, Aamir Rasool, Sun Xiangying, and Genli Zhang

Subjects

Hot Temperature, Environmental Engineering, Cell Survival, Saccharomyces cerevisiae, Bioengineering, Biology, Polymerase Chain Reaction, Cell wall, chemistry.chemical_compound, Heat shock protein, Viability assay, Oleanolic Acid, Waste Management and Disposal, Heat-Shock Proteins, Analysis of Variance, Strain (chemistry), Renewable Energy, Sustainability and the Environment, Thermophile, Trehalose, Congo Red, General Medicine, biology.organism_classification, Adaptation, Physiological, Biosynthetic Pathways, Biochemistry, chemistry, Biophysics, Fermentation, Genetic Engineering

Abstract

In this study, thermo-tolerant devices consisting of heat shock genes from thermophiles were designed and introduced into Saccharomyces cerevisiae for improving its thermo-tolerance. Among ten engineered thermo-tolerant yeasts, T.te-TTE2469, T.te-GroS2 and T.te-IbpA displayed over 25% increased cell density and 1.5-4-fold cell viability compared with the control. Physiological characteristics of thermo-tolerant strains revealed that better cell wall integrity, higher trehalose content and enhanced metabolic energy were preserved by thermo-tolerant devices. Engineered thermo-tolerant strain was used to investigate the impact of thermo-tolerant device on pathway efficiency by introducing β-amyrin synthesis pathway, showed 28.1% increased β-amyrin titer, 28-35°C broadened growth temperature range and 72h shortened fermentation period. The results indicated that implanting heat shock proteins from thermophiles to S. cerevisiae would be an efficient approach to improve its thermo-tolerance.

Published

2014

45. Enzymatic degradation and detoxification of azo dye Congo red by a new laccase from Oudemansiella canarii

Author

Ana Júlia dos Reis Buzzo, Cristiane Vieira Helm, Regina de Fátima Peralta Muniz Moreira, Rosane Marina Peralta, Rosely A. Peralta, Vanesa Gesser Correa, Jéssica Amanda Andrade Garcia, Daiane Iark, Rúbia Carvalho Gomes Corrêa, and Adelar Bracht

Subjects

0106 biological sciences, Environmental Engineering, Kinetics, Bioengineering, 010501 environmental sciences, 01 natural sciences, chemistry.chemical_compound, 010608 biotechnology, Fourier transform infrared spectroscopy, Coloring Agents, Waste Management and Disposal, 0105 earth and related environmental sciences, Laccase, Renewable Energy, Sustainability and the Environment, Basidiomycota, Substrate (chemistry), Congo Red, General Medicine, Chromophore, Congo red, chemistry, Solid-state fermentation, Covalent bond, Azo Compounds, Nuclear chemistry

Abstract

A single laccase with molecular weight of 41 kDa was produced by the white-rot fungus Oudemansiella canarii cultured on solid state fermentation using a mixture of sugarcane bagasse-wheat bran as substrate. The enzyme (5 U) was able to decolourize 80% of 50 mg/L Congo red within 24 h at 30 °C and pH 5.5. The relationship between the decolorization rate and dye concentration obeyed Michaelis–Menten kinetics, with KM and Vmax values of 46.180 ± 6.245 µM and 1.840 ± 0.101 µmol/min, respectively. Fourier transform infrared spectroscopy (FTIR) and mass spectrometry allowed to conclude that the laccase acts not only on the dye chromophore group, but also that it cleaves different covalent bonds, causing an effective fragmentation of the molecule. The action of the laccase caused a significant reduction in toxicity, as indicated by the Microtox test. In conclusion, O. canarii laccase could be useful in future biological strategies aiming at degrading azo dyes.

Published

2019

46. Application of Arjuna (Terminalia arjuna) seed biochar in hybrid treatment system for the bioremediation of Congo red dye.

Author

Goswami, Mandavi, Chaturvedi, Preeti, Kumar Sonwani, Ravi, Dutta Gupta, Arijit, Rani Singhania, Reeta, Shekher Giri, Balendu, Nath Rai, Birendra, Singh, Harinder, Yadav, Sudeep, and Sharan Singh, Ram

Subjects

*CONGO red (Staining dye), *TERMINALIA arjuna, *HYBRID systems, *BIOCHAR, *BIOREMEDIATION, *OZONE generators

Abstract

• Hybrid system (adsorption + bioremediation + ozonation) developed for Congo red removal. • Effect of pH, temperature, and Congo red concentration on Congo red removal were studied. • Bioremediation was carried in a bio reactor packed with Arjuna seeds biochar. • Bio-kinetic studies were carried out using Monod model and degradation. • Hybrid system was found to be economic, environmental and eco-friendly. In the present study, a hybrid treatment system (biological and ozonation) was developed and used in the decolorization of Congo red (CR) dye. The biological treatment was performed in packed bed bioreactor (PBBR) containing Arjuna (Terminalia Arjuna) seeds biochar immobilized with Providencia stuartii , whereas ozonation was carried out in an ozone reactor. The process variables such as temperature, process time, and inoculum size were optimized and found to be 30 °C, 2 48 h, and 3 × 105 CFU/mL, respectively with 92.0 ± 5.0% of dye decolorization. Furthermore, biologically treated effluent was subject to ozone treatment for the decolorization of the remaining CR dye. The hybrid approach reveals almost complete decolorization of Congo red (CR) dye. The kinetic study of microbial growth was examined by Monod model. In addition, the cost analysis estimation for the removal of CR dye was done, and removal per liter was found to be economic. [ABSTRACT FROM AUTHOR]

Published

2020

47. Removal behaviors and mechanisms for series of azo dye wastewater by novel nano constructed macro-architectures material.

Author

Chen J, Hu H, Yang J, Xue H, Tian Y, Fan K, Zeng Z, Yang J, Wang R, and Liu Y

Subjects

Adsorption, Azo Compounds, Coloring Agents, Congo Red, Hydrogen-Ion Concentration, Kinetics, Wastewater, Water Pollutants, Chemical

Abstract

A novel macro-architectures material Fe 3 O 4 -N-GO@sodium alginate (SA) gel film was successfully produced, which was used to remove series azo dye wastewater. The optimal adsorption rates were attained, which achieved the maximum removal efficiency of 74.22%, 45.72%, 37.75% for Congo Red, Acid Orange 7 and Amino Black 10B respectively, under the condition that the mass ratio of Fe 3 O 4 -N-GO to sodium alginate was 0.11. The optimal adsorption temperature for three dyes was 30 ℃ and the adsorption equilibrium was reached at 150 min. The adsorption kinetic model of Fe 3 O 4 -N-GO@SA for the three azo dyes conformed to the quasi-second-order reaction model, and the adsorption isotherm was more in line with the Freundlich adsorption. The adsorption mechanism was multi-layer heterogeneous adsorption under the combined action of physical adsorption and chemisorption, and chemisorption was the main step of controlling the speed. The study would provide theoretical basis for the application of macro-architectures material in environment., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

48. Characterization and interactions of anodic isolates in microbial fuel cells explored for simultaneous electricity generation and Congo red decolorization

Author

Wanjun Li, Jian Sun, Yongyou Hu, Jie Chen, and Qian Xu

Subjects

Environmental Engineering, Microbial fuel cell, Bioelectric Energy Sources, Renewable Energy, Sustainability and the Environment, Maximum power density, Microorganism, Pseudomonas, Biofilm, Color, Congo Red, Bioengineering, General Medicine, Biology, biology.organism_classification, Congo red, Microbiology, Exoelectrogen, chemistry.chemical_compound, Electricity, chemistry, Food science, Energy source, Electrodes, Waste Management and Disposal, Phylogeny

Abstract

To investigate functions and interactions of predominant microorganisms in microbial fuel cells (MFCs) for simultaneous electricity generation and Congo red decolorization, four strains were isolated from the anodic biofilm, and identified as Pseudomonas (M-P and I-P), Bacillus (M-B) and Aquamicrobium (I-A). Higher maximum power density (by 158.2% and 58.1%) but lower Congo red decolorization rate (by 3.2% and 5.9%) were achieved in MFCs using pure cultures I-P and M-P as inoculums than those using I-A and M-B, respectively. By comparing MFCs using co-cultures with those using pure cultures (M-P&B versus M-B and M-P, I-P&A versus I-A and I-P), the maximum power density of MFCs using co-cultures increased 82.0%, 15.1%, 94.6% and -24.6% (minus meant decreased), but decolorization rate decreased 33.3%, 29.4%, 7.9% and 5.0%, respectively. The results indicated specific interaction could enhance the performance of MFCs and might benefit the development of bio-process controlling.

Published

2013

49. Highly efficient adsorption of cationic dye by biochar produced with Korean cabbage waste

Author

Patrick Boakye, Divine Damertey Sewu, and Seung Han Woo

Subjects

Langmuir, Environmental Engineering, Bioengineering, 02 engineering and technology, Brassica, 010501 environmental sciences, 01 natural sciences, Waste Disposal, Fluid, chemistry.chemical_compound, Adsorption, Cations, Biochar, medicine, Crystal violet, Coloring Agents, Waste Management and Disposal, 0105 earth and related environmental sciences, Waste Products, Renewable Energy, Sustainability and the Environment, Chemistry, Environmental engineering, Cationic polymerization, Congo Red, Oryza, General Medicine, Hydrogen-Ion Concentration, 021001 nanoscience & nanotechnology, Wood, Congo red, Waste treatment, Kinetics, Food, Charcoal, Gentian Violet, 0210 nano-technology, Plant Shoots, Water Pollutants, Chemical, Activated carbon, medicine.drug, Nuclear chemistry

Abstract

Biochar was produced from Korean cabbage (KC), rice straw (RS) and wood chip (WC) and the use as alternative adsorbents to activated carbon (AC) in wastewater treatment was investigated. Congo red (CR) and crystal violet (CV) were used as a model anionic and cationic dye, respectively. Initial solution pH had little effect on CR and CV adsorption onto all biochars except for AC on CR. The isotherm models and kinetic data showed that adsorption of CR and CV onto all biochars were dominantly by chemisorption. All biochars had lower adsorption capacity for CR than AC. KC showed higher Langmuir maximum adsorption capacity (1304 mg/g) than AC (271.0 mg/g), RS (620.3 mg/g) and WC (195.6 mg/g) for CV. KC may be a good alternative to conventional AC as cheap, superb and industrially viable adsorbent for removal of cationic dyes in wastewater.

Published

2016

50. Performance and microbial diversity of microbial fuel cells coupled with different cathode types during simultaneous azo dye decolorization and electricity generation

Author

Bin Hou, Yongyou Hu, and Jian Sun

Subjects

Environmental Engineering, Microbial fuel cell, Bioelectric Energy Sources, Color, Bioengineering, Catalysis, law.invention, chemistry.chemical_compound, Electricity, law, Coloring Agents, Electrodes, Waste Management and Disposal, Phylogeny, Bacteria, Waste management, Renewable Energy, Sustainability and the Environment, Chemistry, Biofilm, General Medicine, Cathode, Anode, Dielectric spectroscopy, Congo red, Chemical engineering, Energy source, Azo Compounds

Abstract

To study the effect of cathode type on performance and microbial diversity of the MFC, aerobic biocathode and air-cathode were incorporated into microbial fuel cells (MFCs) which were explored for simultaneous azo dye decolorization and electricity generation. The electrochemical impedance spectroscopy (EIS) results demonstrated that the catalytic activity of the microorganisms on the biocathode surface was comparable with that of the platinum coated on the air-cathode. The power density achieved by using biocathode was lower than air-cathode, but the biocathode could greatly improve the Congo red decolorization rate. By using the biocathode, 96.4% decolorization of Congo red was obtained within 29 h, whereas, about 107 h was required to achieve the same decolorization efficiency with the air-cathode. 16S rRNA sequencing analysis demonstrated a phylogenetic diversity in the communities of the anode biofilm and showed clear differences between the anode-attached populations in the MFCs with a different cathode type.

Published

2012