Your search keyword '"TANNERIES"' showing total 3,876 results

1. Mitigation of tannery effluent with simultaneous generation of bioenergy using dual chambered microbial fuel cell

Author

Chauhan, Shraddha, Sharma, Vikas, Varjani, Sunita, Sindhu, Raveendran, and Chaturvedi Bhargava, Preeti

Published

2022

2. Archival and Newly Isolated Historical Bacillus anthracis Strains Populate the Deeper Phylogeny of the A.Br.075(Sterne) Clade.

Author

Antwerpen, Markus, Braun, Peter, Beyer, Wolfgang, Aldenkortt, Dirk, Seidel, Michael, and Grass, Gregor

Subjects

BACILLUS anthracis, ANTHRAX vaccines, RISK perception, ANTHRAX, TANNERIES

Abstract

The anthrax pathogen Bacillus anthracis can remain dormant as spores in soil for many years. This applies to both natural foci and to sites of anthropogenic activity such as tanneries, abattoirs, or wool factories. The A.Br.075 (A-branch) clade (also known as A.Br.Sterne) is prominent not only because it comprises several outbreak strains but even more so because spore preparations of its namesake, the Sterne strain, are counted among the most utilized anthrax animal vaccines. In this study, we genome-sequenced and analyzed 56 additional B. anthracis isolates of the A.Br.075 clade. Four of these we recently retrieved from soil samples taken from a decades-long abandoned tannery. The other 52 strains originated from our archival collection from the 20th century. Notably, the extended phylogeny of the A.Br.075 clade indicated that many of the newly added chromosomes represent basal members, some of which are among the most basal strains from this lineage. Twelve new strains populate a very deep-branching lineage we have named A.Br.Ortho-Sterne (also known as A.Br.076). A further 11 isolates amend the clade named A.Br.Para-Sterne (A.Br.078). Finally, some of the terminal clusters of the clade named A.Br.Eu-Sterne appear to be replete with (near) identical isolates, possibly a result of widespread use of the Sterne vaccine and of its re-isolation from vaccination-related animal anthrax outbreaks. From the accrued new phylogenetic information, we designed and tested a variety of new SNP-PCR assays for rapid and facile genotyping of unassigned B. anthracis genomes. Lastly, the successful isolation of live B. anthracis from a long-abandoned tannery reemphasizes the need for continued risk awareness of such sites. [ABSTRACT FROM AUTHOR]

Published

2025

3. Effect of Tannery Organic Matter on the Migration and Transformation of Chromium in Soil.

Author

Yang, Meng-Qi, Song, Li-Jie, Guan, Chang-Ping, Wan, Ning, Liu, Hengbo, and Yang, Jin-Yan

Subjects

*ENVIRONMENTAL soil science, *SOIL pollution, *SOIL depth, *TANNERIES, *ORGANIC compounds

Abstract

Chromium (Cr) contamination is one of the main pollution issues in the soils of tanning industries. Nevertheless, it is unclear how tannery organics affect the movement and transformation of Cr in soil. Column leaching tests were carried out to investigate the impact of various tannery organics, such as phenol, dyes, and surfactants on Cr mobility in tannery soil. The cumulative release of Cr from the soil was less in the presence of tannery organics than that from the non-tannery organics treated group. This suggests that the tannery organics enhanced the fixing of Cr in the soil. Cr was poured from the top of the soil column in the form of Cr (III) solution for leaching, and the concentration of Cr decreased with the increase of soil depth regardless of the presence of tannery organic matter. After leaching, the residual Cr concentration in the soil was 59%−78% of the total Cr concentration. The potential risk of Cr in the soil/groundwater system decreased in the presence of the tannery organics, which decreased the bioavailability of Cr and increased the percentage of Cr in residual state. Understanding the relationship between Cr migration and tannery organics in soil is helpful for soil environment risk assessment of tannery site. [ABSTRACT FROM AUTHOR]

Published

2024

4. Leather Tannery Wastewater Treatment Using Electro-Fenton Process -- Effects on Ammonia, Chromium, Total Suspended Solid, Biological Oxygen Demand and Chemical Oxygen Demand Removal.

Author

Alvan, Syahreza, Shirajjudin Aji, Angga Dheta, Mahendra, Ilzam, Al Arif, Zulfiqar, Prayogo, Wisnu, Azizah, Rifka Noor, Awfa, Dion, Qadafi, Muammar, Suryawan, I. Wayan Koko, and Ratnaningsih, Wahyu

Subjects

BIOCHEMICAL oxygen demand, CHEMICAL oxygen demand, INDUSTRIAL wastes, WASTEWATER treatment, TANNERIES

Abstract

Electro-Fenton process could remove pollutant in in tannery industry wastewater. The objectives of this is used to know the effect of electro-Fenton on, ammonia (NH3), chromium (III) (Cr(III), total suspended solid (TSS), biological oxygen demand (BOD), and chemical oxygen demand (COD) removal in tannery wastewater treatment. The voltage variation used to trigger the electro-Fenton reaction was 6 V, 8 V, and 10 V. Observation time at 0, 30, 60, 90, and 120 mins was used to see changes in the sample. The results obtained are electro-Fenton method has an effective time of 30 mins to removal efficiency of 60.7%, 32.9%, 72.8%, 53.4%, and 53.4% for NH3, Cr(III), TSS, BOD, and COD respectively. Pollution from tannery effluent can be eliminated to a sufficient extent using the electro-Fenton technique. [ABSTRACT FROM AUTHOR]

Published

2024

5. The degradation of tannery sludge with and without coffee powder waste as an adsorbent was investigated.

Author

Selvam, Sakthi Maheswaran Panneer, David, Justus Reymond, Jayaraman, Sudarsan Sethuraman, and Subramanian, Nithiyanantham

Subjects

*SEWAGE sludge, *COFFEE waste, *SOLID waste, *TANNERIES, *CATALYSTS

Abstract

Sludge, thus is yet another solid waste of the tanning industry requiring appropriate utilization or safe disposal. These studies show the comparative study of tannery sludge degradation with and without coffee powder waste which gives the degradation process faster than the normal composting process to enhance the composting method. Sludge with catalyst and without catalyst with the help of week trails identified suitable proportion of waste material for a faster degradation in composting. It was observed that degradation of 15 kg waste like tannery sludge, sewage sludge with catalyst degrades faster while compare to without catalyst, mixture of waste as Tannery sludge and sewage sludge. Composting process helps to reduce the quantity of sludge and reuse it in a proper way without affect the environment. [ABSTRACT FROM AUTHOR]

Published

2024

6. Impact of untreated tannery wastewater in the evolution of multidrug-resistant bacteria in Bangladesh.

Author

Mahmud, Zimam, Manik, Md Rasel Khan, Rahman, Adua, Karim, Muhammad Manjurul, and Islam, Laila N.

Subjects

*BACTERIAL evolution, *BIOCHEMICAL oxygen demand, *SEWAGE, *CHEMICAL oxygen demand, *TANNERIES, *P-glycoprotein, *OCHRATOXINS

Abstract

The tannery industry produces one of the worst contaminants, and unsafe disposal in nearby waterbodies and landfills has become an imminent threat to public health, especially when the resulting multidrug-resistant bacteria and heavy metals enter community settings and animal food chains. In this study, we have collected 10 tannery wastewater (TWW) samples and 10 additional non-tannery wastewater (NTW) samples to compare the chemical oxygen demand (COD), pH, biological oxygen demand (BOD), dissolved oxygen (DO), total dissolved solids (TDS), chromium concentration, bacterial load, and antibiotic resistance profiles. While COD, pH, and chromium concentration data were previously published from our lab, this part of the study uncovers that TWW samples had a significantly higher bacterial load, compared to the non-tannery wastewater samples (5.89 × 104 and 9.38 × 103 cfu/mL, respectively), higher BOD and TDS values, and significantly lower DO values. The results showed that 53.4, 46.7, 40.0, and 40.0% of the TWW isolates were resistant to ceftriaxone, erythromycin, nalidixic acid, and azithromycin, respectively. On the other hand, 20.0, 30.0, 50.0, and 40.0% of the NTW isolates were resistant to the same antibiotics, respectively. These findings suggest that the TWW isolates were more resistant to antibiotics than the NTW isolates. Moreover, the TWW isolates exhibited higher multidrug resistance than the NTW isolates, 33.33, and 20.00%, respectively. Furthermore, spearman correlation analysis depicts that there is a negative correlation between BOD and bacterial load up to a certain level (r = − 0.7749, p = 0.0085). In addition, there is also a consistent negative correlation between COD and bacterial load (r = − 0.7112, p = 0.0252) and TDS and bacterial load (r = − 0.7621, p = 0.0104). These findings suggest that TWW could pose a significant risk to public health and the environment and highlight the importance of proper wastewater treatment in tannery industries. [ABSTRACT FROM AUTHOR]

Published

2024

7. Experimental Investigation on Photocatalytic Degradation of Refractory Organics in Biologically Treated Tannery Effluent Using Photocatalysis.

Author

Hema, S. and Kavya, S.

Subjects

POLLUTION management, PHOTODEGRADATION, PHOTOCATALYSIS, BASIC needs, TANNERIES

Abstract

There is a pressing demand for the introduction of environmentally safe technologies for the industries that supply the basic needs of industrialized societies. Advanced Oxidation Processes may become one of the answers to these uprising pollution management problems in the near future. The present investigation aimed to reduce the refractory organics present in the biologically treated (Activated Sludge Process) tannery effluent using Photocatalysis. The optimum time, pH, dosage of H2O2, and mass of NPAC required for the effective treatment using photocatalysis were found to be 60 mins, 8, 0.2 mg.L-1, and 1g. 100 mL-1, respectively. Although the efficiency of homogeneous photocatalysis was found to be higher than that of heterogeneous photocatalysis, the biodegradability was higher in the latter, with a value of 0.26. The experimental results have proved that photocatalysis could be a promising technology to reduce the refractory organics present in the tannery effluent. [ABSTRACT FROM AUTHOR]

Published

2024

8. Conversion of Untanned Proteinaceous Solid Wastes from Tanneries into Aerogel and Its Application in Batch and Continuous Fixed-Bed Adsorption of Acid Red 97.

Author

Nechchadi, Bouchra, Hassoune, Jamila, Ait Talhajt, Said, Ghazzaf, Hind, Lobani, Moad, Mouratib, Rajaa, El Krati, Mohammed, and Tahiri, Soufiane

Subjects

*SOLID waste, *AEROGELS, *TANNERIES, *PACKED towers (Chemical engineering), *ADSORPTION capacity, *SORBENTS, *METHYLENE blue, *SOLID waste management

Abstract

Gelatin-based aerogel (G-Aerogel) from untanned proteinaceous solid wastes was applied as an adsorbent in batch and fixed-bed column systems to remove acid red 97 (AR97) from water. Adsorption was evaluated as a function of pH, adsorbent mass, contact time, temperature, and initial dye concentration. Maximum removal of AR97 was achieved at pH 3 after about 4 h. The pseudo-second-order equation provided the best adsorption kinetic model. The adsorption of AR97 onto G-Aerogel was best described with the Langmuir model, and the maximum adsorption capacity was about 196 mg·g−1. A thermodynamic study showed an exothermic and spontaneous adsorption process. It was also demonstrated that G-Aerogel can be reused several times. The column study showed that breakthrough and saturation times decreased with increasing initial AR97 concentration. Thomas and Yoon-Nelson kinetic models were applied to the experimental data to predict the breakthrough curves and determine the characteristic parameters of column adsorption. Practical Applications: Tannery solid wastes composed mainly of collagen are very abundant and constitute a material that should be valorized. In this study, we examined the transformation of untanned proteinaceous wastes into a biomaterial [Gelatin-based aerogel (G-Aerogel)] of environmental interest. The results demonstrated the promise of this material for dye adsorption because of its advantages in terms of its ease of preparation, its containing functional groups that are able to attract dye, its ability to be reused several cycles, and its high adsorption capacity. In addition to studying adsorption in static mode, we also studied dynamic adsorption, because the common industrial practice is to pass water to be treated through a column packed with an adsorbent, allowing the transport of the pollutant from the liquid to the solid. In summary, G-Aerogel can be applied as an environmentally friendly and efficient adsorbent for the removal of dyes from contaminated water. [ABSTRACT FROM AUTHOR]

Published

2024

9. 论民国时期制革业的发展及其特征: ——以湖南为中心的考察.

Author

熊元彬

Subjects

*LEATHER industry, *CITIES & towns, *TANNERIES, *RAW materials, *WAR

Abstract

Although the origin of leather industry in Hunan Province and even the whole country was earlier, the chrome tanning rules of modern China's new tannery began in Tianjin in 1898, while it appeared later in Hunan in the early period of Republic of China. Under the impetus of saving the country by industry and the movement of domestic products in the early 20th century, Hunan leather industry was initially developed. Especially in the 1920s, even under the influence of political turmoil, the joint-stock management appeared in the Hunan tannery industry while some tanneries temporarily stopped production or closed down, the industry showed the development trend of coexistence of machines and manual workshops. After the outbreak of the War of Resistance against Japanese Aggression in 1931, especially after the fall of Nanjing, Shanghai and other important cities for leather industry, with the inward migration of population and factories and the promotion of wartime economic construction, Hunan leather industry, like other textiles, showed an abnormally prosperous developing trend. At the same time, from the perspective of the comprehensive development of China's leather industry in the Republic of China, there were many characteristics in Hunan's leather industry such as insufficient raw materials, lower technological level and strong dependence on raw materials. [ABSTRACT FROM AUTHOR]

Published

2024

10. Chinese FDI in Ethiopian Leather Industry: Mixed Outcomes

Author

Mamo, Ayalew, Oqubay, Arkebe, Series Editor, and Mamo, Ayalew

Published

2024

11. CARPET SLIPPERS.

Author

Lockton, Jenny

Subjects

SLIPPERS (Footwear), ARTISANS, LEATHER, TANNERIES

Published

2024

12. Current state and production characteristics of the Polish tanning industry: A case study.

Author

Bielak, E. and Zakrzewska, M.

Subjects

*SMALL business, *QUALITY of service, *PRODUCT quality, *DEINDUSTRIALIZATION, *TANNERIES

Abstract

This article presents the results of a study on the current state and evaluation of the Polish tanning industry, focusing on its production characteristics. The research sample included 220 companies that were contacted to gather in- formation about their operations. Some of these companies have been suspended, liquidated, or have changed their business profiles. Approximately 30 % confirmed that they are still active in leather manufacturing, indicating that the Polish tanning industry is experiencing a process of deindustrialization. Surveys conducted in 20 companies revealed that Polish tanneries operate on national, European, and global scales. Most of them are micro or small enterprises with annual revenues of up to PLN 5 million. The primary factor defining their competitiveness is the high quality of the products and services they offer. They mainly process calfskin and cowhides sourced from Poland and abroad, primarily for the footwear sector. Polish tanneries are aware of global trends, including the industry's shift towards ecological practices, the adoption of modern technologies, and the introduction of innovations. Given the current challenges facing the Polish tanning industry, it is essential to take action to improve the health of this sector of the economy. [ABSTRACT FROM AUTHOR]

Published

2024

13. Degradation of synthetic azo dyes by Citrobacter freundii isolated from tannery effluent.

Author

Manikandan K, Lavanya S, Ranjani S, Begum, Faridha, and Hemalatha S

Subjects

AZO dyes, CITROBACTER freundii, CHEMICAL processes, TANNERIES, INDUSTRIAL wastes

Abstract

Scarcity of water is becoming a big issue. Most of the water is used in industrial sectors including pharmaceutical, food, textiles, leather, and cosmetics. Industrial effluent water is unable to treat and reuse due to their intricate nature. Effluent water contains synthetic azo dyes since they employ synthetic azo dyes as a major coloring agent. Existing approaches are ineffective in treating effluent containing synthetic azo dyes. Synthetic azo dyes containing effluent water can be treated biologically to overcome the drawbacks of physical and chemical processes. In this research work, novel organism was isolated from tannery effluent water. Isolated organisms were screened and selected for effective degradation of azo dyes. One such organism is Citrobacter freundii which effectively degrade the effluent water containing synthetic azo dyes and allowing it to reuse for variety of purpose. Phytotoxicity study of the treated water was carried out and the study confirms non toxicity nature of the treated water. In‐silico screening was carried out to test the interaction efficacy of enzymes such as Laccase, Azo reductase, and peroxidase which are responsible for effective dye degradation with synthetic azo dyes. In silico studies showed better interactions between synthetic azo dyes and enzymes. This is the novel report on showing the effective degradation of synthetic azo yellow dye by using C. freundii isolated from tannery effluent. [ABSTRACT FROM AUTHOR]

Published

2024

14. Impact of tannery wastes on anaerobic co-digestion: enhancing biogas production and process efficiency.

Author

Andriamanohiarisoamanana, Fetra J., Farghali, Mohamed, Mohamed, Israa M. A., Yoshida, Gen, Shiota, Kazuya, and Ihara, Ikko

Subjects

BIOGAS production, MANUFACTURING processes, SEWAGE sludge, TANNERIES, TANNING (Hides & skins)

Abstract

The study investigates the potential of anaerobic co-digestion (AcoD) as a sustainable solution for managing putrescible organic waste generated by leather processing. Three experiments were conducted to assess the impact of various tannery wastes, pretreatment methods, and waste combinations on methane production. Experiment 1 demonstrated that co-digesting tannery wastewater primary sludge (TWPS) and fleshings significantly increased methane yield compared to digesting TWPS alone, though the addition of chromium- and vegetable-tanned leather wastes decreased yield. Experiment 2 explored TWPS pretreatment methods and found that ultrasonic pretreatment increased soluble chemical oxygen demand (SCOD) but did not significantly improve methane yield, suggesting that pretreatment may not be necessary. Experiment 3 revealed that increasing the proportion of fleshings to TWPS resulted in higher methane yield, ranging from 226.52 mL/gVS with 6% fleshings to 395.71 mL/gVS and 538.34 mL/gVS with 12% and 20% of fleshings, respectively. Additionally, this increase in fleshings also led to a reduction in digester volume. These findings highlight the importance of AcoD in addressing both environmental and economic challenges in the leather industry. [ABSTRACT FROM AUTHOR]

Published

2024

15. Accumulation and Translocation of Heavy Metals in Hibiscus cannabinus Grown in Tannery Sludge Amended Soil.

Author

Anita, Kulsoom, Mahiya, Yadav, Aneet Kumar, Kumar, Monu, Raw, Kamla Pat, Prasad, Satguru, and Kumar, Narendra

Subjects

KENAF, ANALYSIS of heavy metals, TANNERIES, HEAVY metals, COPPER, ENERGY crops, GERMINATION

Abstract

Digested sludge wasted by tanneries is rich in nutrients and trace elements however, the presence of toxic metals restricts their use in agriculture. The present study explores the possible application of tannery sludge amendment for the cultivation of an energy crop, Hibiscus cannabinus. The toxicity of various sludge amendments (25, 50, 75, and 100%, w/w) was examined during early seedling growth, followed by metal accumulation potential by performing pot experiments. Chemical characterization revealed the presence of Cr (709.6), Cu (366.43), Ni (74.6), Cd (132.71), Pb (454.8) µg.g-1 in tannery sludge beside N (2.1%), P 3.8 & K 316.96 (kg.hec-1.) respectively. Germination of H. cannabinus exposed to sludge extracts ranged between 80 to 95%; Relative seed germination, 81.33 to 84.43%. Relative root growth, 0.9 to 1.16 cm; and germination index, 95 to 110%. It was found that sludge extracts have not caused adverse effects on seed germination and early seedling growth. Heavy metal accumulation was observed as follows: Ni (3.37, 2.38, 1.46 & 0.90 mg.kg-1) > Pb (10.59, 10.15, 5.26, & 2.84 mg.kg-1) > Cu (2.34, 2.24, 0.97 & 0.24 mg.kg-1) > Cd (2.31, 1.19, 1.33 & 1.12 mg.kg-1) > Cr (1458, 1136.12, 601.73 & 211.6 mg.kg-1) in 100, 75, 50, & 25% sludge amended soil, respectively. The bio-concentration pattern of metals was found to be in the order of root > leaf > stem. The findings of the present study give direction for the eco-friendly and cost-effective management of tannery sludge. Further, H. cannabinus can be used for the restoration of metal-contaminated agricultural land, however, results need to be corroborated with field trials. [ABSTRACT FROM AUTHOR]

Published

2024

16. Assessment of tannery sludge additions on physico-mechanical properties of clay bricks.

Author

Venkatesh, G., Krishnaiah, S., and Ramesh, G.

Subjects

*BRICKS, *POWDERED glass, *TANNERIES, *CLAY, *HEAVY metals, *COMPRESSIVE strength

Abstract

The present study explores the partial replacement of clay by the addition of tannery sludge (TS) and glass in brick preparation. Bricks were prepared with varying weight percentages of TS (9%, 18%, and 27%) along with glass powder (10%) and fired at different temperatures (900, 950, and 1000 °C). Water absorption, compressive strength, weight loss on ignition, volumetric shrinkage, and bulk density of the bricks were found to be in the range of 12.3%–16.8%, 2.3–4.5 MPa, 4%–13.8%, 6%–11%, and 1600–1850 kg/m3, respectively. Heavy metal leaching was observed to be within the limits of United States Environmental Protection Agency 1311 for the prepared bricks. The addition of TS resulted in a decrease of physical and mechanical properties of the bricks due to the decomposition of organic and inorganic compounds. However, the presence of glass powder compensates for the effect of TS by fusion and densification process. The results indicate that hybrid addition of TS and glass can partially replace clay in brick production and effectively immobilize heavy metals. [ABSTRACT FROM AUTHOR]

Published

2024

17. Optimizing SCFAs Production from Tannery Sludge: Insights from Zeolite-Assisted Fermentation with Mild Thermal Pretreatment.

Author

Tuci, Giulia A., Gottardo, Marco, Trevisanato, Giorgia, Pavan, Paolo, and Valentino, Francesco

Subjects

ZEOLITES, FERMENTATION, SHORT-chain fatty acids, TANNERIES, SOLUBILIZATION

Abstract

This study explores the potential of utilizing tannery sludge for short-chain fatty acids (SCFAs) production through fermentation, incorporating zeolites in the process. The study involved a mild thermal pretreatment of the sludge as well, aimed at enhancing the subsequent fermentation process by increasing the solubilization of the organic matter. Six thermophilic continuously stirred tank reactor runs with varying hydraulic retention times (HRT) and zeolite addition are conducted. Zeolites, known for their low cost and absorption properties, significantly impacted chromium concentrations. SCFA production levels remain relatively consistent across tests. However, the acidification efficiency, as reflected in the SCFAs/sCOD ratios, shows improvement in the presence of Chabazite. Specifically, the acidification efficiency is highest in test RB8 (0.92 COD/COD). This suggests that the addition of Chabazite enhances acidification efficiency in tannery sludge applications. The findings highlight zeolites' potential to absorb heavy metals and improve acidification efficiency, indicating promising practical applications for tannery sludge treatment. [ABSTRACT FROM AUTHOR]

Published

2024

18. Potentials of surface modified biochar for removal of Cr from tannery effluent and its regeneration to ensure circular economy.

Author

Parameswari, Ettiyagounder, Kalaiarasi, Rajakumaran, Davamani, Veeraswamy, Kalaiselvi, Periyasamy, Paulsebastian, Selvaraj, and Ilakiya, Tamilselvan

Subjects

*CIRCULAR economy, *SURFACE potential, *BIOCHAR, *RESPONSE surfaces (Statistics), *TANNERIES, *CHROMIUM

Abstract

Industries play a substantial role in contaminating the freshwater sources. This study was performed to appraise the potential of biochar activated with 85% phosphoric acid was used as chemisorbent for the removal of Chromium III and VI (Cr III and VI)) and desorbed chromium was utilized for replacing the conventional basic chromium sulfate to ensure circular economy. In our previous studies, the factors for biosorption of Cr were optimized through Box–Behnken model under Response Surface Methodology. Batch adsorption studies revealed that the optimum conditions for maximum Cr (VI) biosorption by activated biochar is pH = 2, biosorbent dose: 1%, biosorbent size: 1 mm, solute concentration: 985 mg L−1 and reaction time 35 h. Based on these results a column experiments were carried out and flow rate was optimized as 0.5 ml m−1 where prominent "S" shaped breakthrough curves were noticed. The predicted values under Thomas model for the adsorption of Cr was 3827.2 µg g−1, which was in close agreement with experimental value of 3566.1 µg g−1. The percent Cr sorption varied from 70.05 to 88.75% in first cycle and showed decreasing trend in the subsequent cycles. The elutant 0.5 M H2SO4 desorbed 89.56% of chromium furthermore eluted chromium was utilized for leather tanning. Reusing of recovered chromium for tanning experiments does not alter the leather Tensile (240.82 kg cm−2) and tear strengths (32.41 kg mm−1). This study suggested that recovered chromium from biosorbent can be well utilized for leather tanning to attain the leather of equivalent qualities as that of conventional methods which could save 20–22% of the production cost besides defending the environment from Cr contamination. [ABSTRACT FROM AUTHOR]

Published

2024

19. A novel strategy of tannery sludge disposal – converting into biochar and reusing for Cr(VI) removal from tannery wastewater.

Author

Li, Zhiwei, Yu, Di, Wang, Xingdong, Liu, Xuejiao, Xu, Zhen, and Wang, Yin

Subjects

*POISONS, *TANNERIES, *WASTE recycling, *SEWAGE, *LEATHER industry, *BIOCHAR

Abstract

Tannery sludge with high chromium content has been identified as hazardous solid waste due to its potential toxic effects. The safety disposal and valorization of the tannery sludge remains a challenge. In this study, the chromium stabilization mechanism was systematically investigated during chromium-rich tannery sludge was converted to biochar and the removal performance of the sludge biochar (SBC) for Cr(VI) from tannery wastewater was also investigated. The results showed that increase in pyrolysis temperature was conductive to the stabilization of Cr and significant reduction of the proportion of Cr(VI) in SBC. It was confirmed that the stabilization of chromium mainly was attributed to the embedding of chromium in the C matrix and the transformation of the chromium-containing substances from the amorphous Cr(OH) 3 to the crystalline state, such as (FeMg)Cr 2 O 5. The biochar presented high adsorption capacity of Cr(VI) at low pH and the maximal theoretical adsorption capacity of SBC produced at 800°C can reach 352 mg Cr(VI)/g, the process of which can be well expressed by Langmuir adsorption isotherm and pseudo second order model. The electrostatic effect and reduction reaction were dominantly responsible for the Cr(VI) adsorption by SBC800. Overall, this study provided a novel strategy for the harmless disposal and resource utilization for the solid waste containing chromium in leather industry. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

20. Biodegradability of leather: a crucial indicator to evaluate sustainability of leather.

Author

Wang, Ya-nan, Zhang, Yuxin, and Wang, Zhen

Subjects

LEATHER, TANNING (Hides & skins), BIOCHEMICAL oxygen demand, BOOKBINDING, LEATHER industry, SUSTAINABILITY, TANNERIES

Abstract

Biodegradability is a crucial indicator to evaluate the sustainability of leather. Herein, a rapid method for biodegradation test in an aqueous medium by measuring biochemical oxygen demand was used to determine the biodegradability of leather from different tanning methods, tanning conditions and process stages. In addition, the difference in biodegradability between leather and leather-like synthetic materials were investigated. Chrome-free tanned leather showed higher degree of biodegradation and faster biodegradation rate than chrome tanned leather. Among them, leathers tanned with biomass-based tanning agents were much easier to biodegrade because the crosslinking network of tanned leather constructed with biomass was more susceptible to microbial attack. The enhancement of tanning effects through changing tanning methods and conditions (such as tanning agent dosage, pH and temperature) resulted in the decline of leather biodegradability. Future development of novel chrome-free tanning technologies should balance between these two aspects. The biodegradability of leather from tanning to post-tanning to finishing showed a stepwise decrease because various chemicals were applied and bound to leather during processing. Even so, finished leather still possessed significantly higher biodegradability compared to leather-like PU and microfiber synthetic materials, demonstrating superior environmental sustainability of natural leather. The results are expected to provide support for the evaluation of the ecological properties of leather and green upgrade of the leather industry. [ABSTRACT FROM AUTHOR]

Published

2024

21. In silico analysis of chromium‐reducing OXR genes derived from tannery effluent‐contaminated soil metagenome.

Author

Singh, Ayushi, Patel, Sanjay K. S., Varma, Ajit, Mandal, Manabendra, and Porwal, Shalini

Subjects

TANNERIES, SHOTGUN sequencing, HEAVY metals, TERTIARY structure, HEXAVALENT chromium, GENES, CHROMIUM removal (Water purification)

Abstract

Tannery effluent waste comprises various potentially toxic metals, including chromium (Cr) with varying acute or chronic toxicity. Cr(VI) is known to be a category‐A carcinogen. Reduction of toxic Cr(VI) to Cr(III), which has lesser bioavailability, is one of the mechanisms used by many microbes to withstand Cr(VI) toxicity in the contaminated effluents. Oxidoreductase (OXRs) reduces toxic Cr(VI) to Cr(III); hence a thorough understanding of the OXRs is important for developing a suitable strategy to minimize Cr(VI) toxicity. Therefore, the OXR‐encoding genes were sequenced using metagenomic DNA shotgun sequencing from the tannery effluent‐contaminated soil. Six OXR‐encoding genes were expressed in Escherichia coli, and OXR activity was confirmed by in situ quantitative assays. The six proteins were subjected to phylogenetic and evolutionary analysis. Further, detailed structural analysis of the two OXRs, namely, OXR3 and OXR8 with lowest and highest activity respectively, were investigated in silico for structural characteristics. The results revealed that both the proteins were soluble FMN‐linked oxidoreductases. Eight conserved active site residues (Pro24, Thr26, Ala59, Tyr139, His178, Tyr180, His219, Tyr221, Arg269, and Lys360) in the enzyme OXR3 were predicted. Similarly, nine conserved active site residues (Pro20, Thr22, Ala55, Glu97, His191, Tyr193, Arg241, Cys334, and Arg335) were predicted in OXR8. The tertiary structure of OXR8 was an aldolase TIM barrel structure, like Thermus scotoductus chromate reductase. Docking with FMN revealed the involvement of all the nine predicted active site residues in FMN binding with Pro20, Thr22, and Cys334 as the most important ones. [ABSTRACT FROM AUTHOR]

Published

2024

22. Comparison of electrocoagulation and combined electrocoagulation-electrooxidation treatment for synthetic tannery wastewaters bearing phenolic syntan.

Author

Kumar, Amit and Basu, D.

Subjects

INDUSTRIAL wastes, TAGUCHI methods, TANNERIES, OPERATING costs, AROMATIC compounds, ENERGY consumption, CATALYTIC converters for automobiles, CARBONACEOUS aerosols

Abstract

In this study, EC process using an aluminum anode, and EC-EO process using aluminum and mixed metal oxide, i.e., platinum-ruthenium dioxide-coated onto titanium (Al-Ti/Pt-RuO2) anode was used to understand the remove of phenolic syntan (PS) from synthetic tannery wastewaters. The operational conditions of the abovementioned electrochemical processes were optimized using Taguchi L16 method in terms of maximum removal of total organic carbon (TOC) and PS. At the optimum operating condition (current density = 14.25 mA/cm2, initial pH = 4, rotational speed = 70 rpm and initial PS amount = 0.25 g/L), the incomplete removal of TOC (83.93%) and PS (81.19%) was obtained in the EC process with the energy consumption of 0.135 kWh/g TOC remove and 0.056 kWh/g PS remove. In contrast, almost (≈100%) complete removal of the dissolved organic pollutant was observed in the EC-EO process with the energy consumption of 0.113 kWh/g TOC remove and 0.0453 kWh/g PS remove. The energy consumption per g TOC and PS removed was 0.135 and 0.056 kWh for the EC process, whereas 0.113 and 0.0453 kWh for the EC-EO process. The operating cost of the EC-EO process was estimated to be 1.39 USD/m3, which was lesser (-19.65%) than the operating cost of the EC process. Signal-to-noise ratio and ANOVA results showed that current density was the most influential parameter with the highest delta value and contribution ratio for TOC and PS removal in both the EC and EC-EO process. The UV/Vis and FT-IR analyses indicate that the highest removal of aromatic compounds was obtained in the EC-EO process compared to the EC process. FT-IR analyses confirmed that the PS was first degraded into a quinone functional group, which was further oxidized into carboxylic acid. [ABSTRACT FROM AUTHOR]

Published

2024

23. Solidification Mechanism and Strength Characteristics of Alkali-Activated Tannery Sludge–Slag Geopolymer.

Author

Chen, Shoukai, Duan, Peidong, Zhao, Mengdie, Shi, Haibo, and Bie, Yajing

Subjects

TANNERIES, SOLIDIFICATION, RESPONSE surfaces (Statistics), PORTLAND cement, SCANNING electron microscopes, SOLID waste, INDUSTRIAL wastes

Abstract

The aim of this article is to reduce the environmental harm caused by industrial solid waste, specifically tannery sludge, and enable its reutilization. This study prepared an alkali-activated tannery sludge–slag solidification product (ATSSP) with high mechanical properties using blast furnace slag and tannery sludge as raw materials. The response surface methodology (RSM) was used to optimize the product mix ratio. The hydration mechanism and solidification method of ATSSP for Cr in tannery sludge were studied using X-ray diffraction (XRD), scanning electron microscope-energy dispersive spectrometer (SEM-EDS), and Fourier transform infrared reflection (FT-IR). The results indicate that the compressive strength regression model established through RSM has high accuracy and credibility. When the ratio of activator to binder is 0.2174, the alkali activation modulus is 1.02, and the water-to-cement ratio is 0.37; the 28 d compressive strength of ATSSP can reach 71.3 MPa. The sulfate in tannery sludge can promote the secondary hydration reaction of slag, and the generated hydrated calcium silicate and calcite greatly improve the strength of the ATSSP. The reducing substances contained in slag can reduce Cr (VI) in tannery sludge to Cr (III) in the form of uvarovite. The total Cr and Cr (VI) precipitation concentrations of the product are far less than the specification requirements. [ABSTRACT FROM AUTHOR]

Published

2024

24. Mechanism detoxification of chrom (VI) to chrom (III) by chromate reductase in Pseudomonas putida from of tannery waste through molecular docking studies.

Author

Khotimaha, S.

Subjects

*MOLECULAR docking, *CHROMATES, *HEXAVALENT chromium, *CHROMIUM compounds, *TANNERIES, *PSEUDOMONAS putida, *EXOTOXIN

Abstract

Chromate reductase producing bacteria had the potential to detoxify toxic hexavalent chromium into Cr(III) which was less toxic and insoluble in water. This mechanism was one that was carried out by microbes such as Pseudomonas putida. This bacterium survived in a liquid medium containing K2CrO4, during an incubation period of 72 hours. Pseudomonas putida isolate was able to reduce Cr (VI) by 64.31%. Bacteria had a resistance gene that was encoded in the plasmid with the gene name ChrR and the gene translates to protein chromate reductase (CHRR) or NAD(P)H dehydrogenase. Chromate reductase was able to oxidatively reduce chromium (VI) atoms/compounds to chromium (III). Chromate reductase in catalyzing chromium (VI) requires cofactors, one of which was FMN (Flavin Mono Nucleotide) or Riboflavin 5 Phosphate. This had been recorded in the UniProtKB database, through the secondary date base SWISS MODEL 3D structure of chromate reductase, it had been seen that the FMN compound had been bound to protein chromate reductase. By using molecular docking the FMN and chromate reductase bonds were seen with their affinity energies. [ABSTRACT FROM AUTHOR]

Published

2023

25. Comparative studies on COD removal of tannery wastewater by novel steel scrap as a catalyst with conventional Fenton process.

Author

Krishnan, E. Pavithra and Ganesan, R.

Subjects

*SEWAGE, *TANNERIES, *COMPARATIVE studies, *STEEL, *CATALYSTS

Abstract

The main aim of the research is to remove the COD of tannery wastewater by Fenton and Modified Fenton processes. Materials And Method: The total number of groups in this study is two (Control group N=8 and Experimental group N=8). The sample size was taken as 16 after being calculated for a pre-test power of 80% with an alpha value of 0.05 in clinical.com. The removal of COD of tannery wastewater by Fenton process and modified fenton process was carried out. Results and Discussion: The COD removal efficiencies were 59% and 67% by Fenton and modified Fenton Processes respectively. All the results obtained were analysed for its insignificance by SPSS software and graphs were plotted and the level of significance was found to be p=0.017 (p<0.05) Conclusion: Within the limitations of this study, Fenton with novel steel scrap catalyst has maximum COD removal. [ABSTRACT FROM AUTHOR]

Published

2023

26. Vous vouliez tant nous connaître : Out of Spaces de Marie Lelouche.

Author

CHÊNEL, MARIE

Subjects

VIRTUAL work, INTERPERSONAL relations, VIRTUAL reality, TANNERIES, GLASS sculpture, EXHIBITIONS

Abstract

Copyright of Espace Art Actuel is the property of Centre de Diffusion 3D and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

27. Organic and inorganic pollutants removal from tannery effluent using electrocoagulation technique.

Author

Muthukrishnaraj, Appusamy, Kalaivani, Semmedu Selvaraj, Visagamani, Arularasu M., Ayyar, Manikandan, Kosiha, Arumugam, Dinesh, Ayyar, Padmapriya, Govindaswamy, Rathinavel, Subramanian, Padmavathi, Kandasamy, Hashem, Mohamed, Fouad, Hassan, and Ansari, AbuZar

Subjects

POLLUTANTS, FREUNDLICH isotherm equation, MILD steel, FOURIER transform spectrometers, TANNERIES

Abstract

Electrocoagulation is an efficient treatment for the concurrent elimination organic and inorganic contaminants from tannery wastewater. The batch electrocoagulation investigations were carried out using mild steel and aluminium as sacrificial anodes and stainless steel as the cathode. Various operating constraints, such as the electrolyte pH, realistic current density, electrolysis time, effluent concentration and supporting electrolyte concentration were appraised to study their effects on electro-coagulation efficiency. The maximum Total Organic Carbon (TOC) removal has been observed was 90 % and 77 % under optimum operating conditions, and the maximum chromium removal has been recorded was 99 % and 90 % using mild steel and aluminium anodes respectively. The experimental data was also fitted with the first order kinetic model. The experimental data were investigated with the Langmuir and Freundlich adsorption isotherm models. The result shows that the experimental data fitted with the Langmuir isotherm model, with a rate of confidence of 0.98, using mild steel as an anode. The solid sludge and the liquid samples were characterized using the SEM (scanning electron microscopy) EDX (energy dispersive X-ray spectrometry), FT-IR (Fourier transform infrared spectrometer) and UV–Visible (Ultraviolet–visible spectroscopy) analyses. All experimental results show that mild steel was an efficient anode, for the instantaneous elimination of organic and inorganic contaminants from tannery wastewater. [ABSTRACT FROM AUTHOR]

Published

2024

28. Removal of Cr and Organic Matter from Real Tannery Wastewater via Fenton-like Process Using Commercial Nano-Scale Zero-Valent Iron.

Author

Vasquez, Yaneth, Franco, Jair, Vasquez, Mario, Agudelo, Felipe, Petala, Eleni, Filip, Jan, Galvis, Jose, and Herrera, Oscar

Subjects

CHROMIUM removal (Sewage purification), RESPONSE surfaces (Statistics), ORGANIC compounds, SEWAGE, TANNERIES, WASTE recycling

Abstract

The tannery wastewater from the tanning stage (TWT) comprises organic and Cr pollutants, which can adversely affect aquatic life and have carcinogenic effects. In this study, we investigated the performance of a Fenton-like process using commercial Nano-scale zero-valent iron (nZVI) for the simultaneous removal of Cr and organic matter from real TWT. We used an experimental design to select the principal operating parameters. A Plackett–Burman design identified variables for Cr-total and COD removal, followed by a central composite design (CC-D) to determine optimal variable levels. Finally, the response surface methodology (RSM) was used to find the optimum concentration of individual variables influencing Cr-total removal. Additionally, the effect of the leather-related, co-existing substances that influenced the efficiency of the process and the possibility of recycling nZVI were explored. The inclusion of nZVI was significantly more effective at removing both Cr-total and COD (97.3% ± 5.7% and 73.9% ± 9.1%, respectively), whereas the traditional Fenton process achieved lower removal rates (55.6% ± 10.0% for Cr-total and 34.8% ± 10.9% for COD). The optimal conditions for the Fenton-like process were nZVI/H2O2 = 1.05 w/w, and pH = 2.93. We obtained the best results during the first 5 min of the reaction, which increased after 48 h of agitation and subsequent neutralization. According to the results of four consecutive cycles, nZVI exhibited high reusability (97%) without compromising its adsorption potency. XPS analysis confirmed Cr removal through the adsorption mechanism on the nZVI surface. Hence, a Fenton-like process based on nZVI can be used as a promising alternative for treating organic and Cr wastewater. [ABSTRACT FROM AUTHOR]

Published

2024

29. Optimizing anaerobic digestion of tannery fleshings with different inoculums using biochemical methane potential test and mathematical modelling.

Author

Kumar, V. Kavan, Mahendiran, R., Subramanian, P., Karthikeyan, S., Surendrakumar, A., Ravi, Y., Choudhary, Sharda, Singh, Ravindra, and Verma, Arvind K.

Subjects

*ANAEROBIC digestion, *BIOGAS production, *STANDARD deviations, *TANNERIES, *MATHEMATICAL models, *DIGESTION

Abstract

The present experimental set-up study of tannery fleshings with different inoculum batch sizes, was carried out for an hydraulic retention time of 50 days to check the capability of anaerobic digestion. Biogas production was between 10,102.5 and 14,505 ml/day. The firstorder and modified Gompertz models were calibrated using experimental data. For kinetic analysis of biogas production, modified Gompertz models and basic firstorder kinetics were employed. In each instance, the kinetic parameters, substrate biogas yield potential, maximal biogas production rate, lag phase time, coefficient of determination and root mean square error were calculated. The model parameters were estimated using the nonlinear regression approach made possible by IBM SPSS software 25.0. Both the models fitted/predicted the experimental data with over 99% accuracy (R2 = 0.990-0.999). [ABSTRACT FROM AUTHOR]

Published

2024

30. Deranged Matchings: Proofs and Conjectures.

Author

Johnston, Daniel, Kayll, P. Mark, and Palmer, Cory

Subjects

*LOGICAL prediction, *COMBINATORICS, *TANNERIES, *UMBRELLAS

Abstract

We introduce, and partially resolve, a conjecture that brings a three-centuries-old derangements phenomenon and its much younger two-decades-old analogue under the same umbrella. Our tools blend combinatorics and analysis in a medley incorporating Inclusion-Exclusion and Tannery's theorem. [ABSTRACT FROM AUTHOR]

Published

2024

31. Removal of Chromium (III) and Reduction in Toxicity in a Primary Tannery Effluent Using Two Floating Macrophytes.

Author

López Arias, Tomás R., Franco, Deidamia, Medina, Leonida, Benítez, César, Villagra, Verónica, McGahan, Shaun, Duré, Giselle Mariza, and Kurita-Oyamada, Hajime G.

Subjects

CHROMIUM removal (Water purification), TANNERIES, CHROMIUM, DAPHNIA magna, CLADOCERA, MACROPHYTES, SCENEDESMUS obliquus, LEMNA minor

Abstract

Trivalent chromium (Cr(III)) is a contaminant with toxic activity. Its presence in waters and soils is usually related to industrial activities such as tanneries. The aim of this study was to compare the removal of Cr(III) in hydroponic solutions and tannery effluents using two floating macrophytes: Salvinia auriculata and Eichhornia crassipes. First, to determine the chromium removal capacity in solution and the bioaccumulation factor (BAF) in tissues of each plant, experiments were set up with contaminated solutions with Cr(III) concentrations of 2, 5, 10, 20, and 40 mg/L. Subsequently, both plant species were exposed to a primary tannery effluent contaminated with 12 mg/L of Cr(III) in order to study the removal capacity of organic and inorganic matter, as well as the acute toxicity in the water flea (Daphnia magna) and genotoxicity in zebrafish (Danio rerio). Tests carried out on nutrient solutions revealed that both plants have a high capacity for removing Cr(III) in solution. The BAF in tissues was higher in E. crassipes compared to S. auriculata. In the experiments with a tannery effluent, both species presented low nutrient and organic matter removal efficiency, but they showed good Cr(III) removal capacity, with average reduction values of 57% for S. auriculata and 54% for E. crassipes after 72 h of exposure. E. crassipes contributed most to the reduction in acute toxicity in D. magna, while S. auriculata did not show a similar effect. However, both plant species managed to reduce the genotoxicity marker in D. rerio when compared with the initial effluent and the control. [ABSTRACT FROM AUTHOR]

Published

2024

32. EXPERIMENTAL INVESTIGATION AND ITS ANALYSIS IN TANNERY WASTEWATER USING MOVING BED BIOFILM REACTOR AND ACTIVATED SLUDGE PROCESS.

Author

Banerjee, Soham, Bhattacharya, Debdeep, and Bhunia, Kamalendu

Subjects

*ACTIVATED sludge process, *MOVING bed reactors, *BIOCHEMICAL oxygen demand, *TANNERIES, *CHEMICAL oxygen demand

Abstract

The Tannery Industry produces a massive amount of toxic effluent which needs to be treated properly. It contains high organic matter, suspended solids, and chromium which in turn can cause environmental problems. This study provides valuable insights into the potential of Moving Bed Biofilm Reactor (MBBR) and Activated Sludge Process (ASP) for treating tannery wastewater. It also highlights the importance of proper wastewater treatment in the tannery industry to mitigate environmental impacts. The batch analysis was conducted to find out removal efficiencies for Total Dissolved Solids (TDS), Chemical Oxygen Demand (COD), Biological Oxygen Demand (BOD5), Sulphide (S2-), Ammonia (NH4), Nitrate (NO3). Kaldness K1 bio-media was used with a 50% filling ratio in the laboratory setup of the MBBR and aeration was provided to both setups. The results for the MBBR system showed chromium removal of 95.4% with the obtained reduction of biochemical oxygen demand (BOD), chemical oxygen demand (COD), sulfide (S2-), and nitrate (NO3) 93.5%, 88.8%, 93.7%, and 97.09%, respectively. It indicates significant removal efficiencies for various pollutants in the tannery wastewater, suggesting the effectiveness of the MBBR system. [ABSTRACT FROM AUTHOR]

Published

2024

33. IDENTIFICATION AND DISTRIBUTION OF EARTHWORM SPECIES IN TANNERY EFFLUENTS AREA IN KANPUR, UTTAR PRADESH, INDIA.

Author

Kumar, Pradeep, Bhadauria, Tuneera, and Kumar, Pravesh

Subjects

SPECIES distribution, TANNERIES, LEAD, COPPER, TRANSITION metals, VERMICOMPOSTING

Abstract

Having across 450 tannery companies, Kanpur city has grown into an important tannery industrial area that is extremely harmful to the environment. Water and Soil pollution through the discharge of industrial effluents is causing severe problems. The contaminants include toxicants such as arsenic (As), chromium (Cr), cadmium (Cd), copper (Cu), iron (Fe), Mercury (Hg), lead (Pb) and zinc (Zn). The presence of heavy and transition metal significantly changes the water and soil characteristics. It has been considered one of the most polluted industrial wastes and contains high amounts of metals which are very toxic to plant, animal and soil. The present study deal with the survey of the tannery industrial area in Kanpur, Uttar Pradesh from month Mar 2020 to Feb 2021 to explore its earthworm's diversity and distribution in both qualitatively and quantitatively. Qualitatively earthworms' fauna included two genera belong to two different family's viz. Octochaetidae (Eutyphoeus waltoni) and (Metaphire posthuma Megascolecidae) commonly found in the study area. Of these, 01 taxa are native and one is exotic. Eutyphoeus waltoni species was the dominant species among three Shekhpur, Peundi and Sawaldas Ghat sites contributing 339, 465 and 662 respectively and Metaphire posthuma (exotic) species dominant three Shekhpur, Peundi and Maekupurwa sites contributing 48, 201 and 409, respectively. These surveys are important for environment because survey sites were irrigation by tannery treated water and untreated water use. So, the earthworm life cycle affected Finally, ecosystem more effected by industrial treated water uses in irrigation. [ABSTRACT FROM AUTHOR]

Published

2024

34. USING TANNERY WASTES IN POULTRY FEED: A MATTER OF CONCERN FOR SAFE POULTRY PRODUCTION IN BANGLADESH.

Author

ISLAM, Md. Saiful, PROTIK, Ankur Sarker, ZANNAT, Mst. Arefatul, NAIM, Zannatul, KABIR, Md. Enayet, ASADUZZAMAN, Md., and AKTER, Mofassara

Subjects

POULTRY, TANNERIES, SOLID waste, LEAD, HEAVY metals

Abstract

Nowadays tannery waste is a matter of concern because if it used as livestock feed, it could cause health hazards to humans. Therefore, this study was conducted to know the generation rates, utilization, disposal method of tannery solid wastes (TSWs), and inclusion level of it into the poultry feed. Moreover, this study determined the physical and chemical parameters of interest including moisture content, crude protein (CP) levels, and the presence of heavy metals such as chromium (Cr) and lead (Pb) in the poultry feeds that were sold in the studied area. For these purposes, a field survey was conducted with twenty tannery industries. Broiler feed samples were procured from multiple farmers situated in the Savar area of Dhaka. The feed source was classified into two categories, namely registered and unregistered feed mills. According to the study, wet blue trimmings was generated in 3.84% that was used as an ingredient of poultry feed. In addition, 55% of tanneries landfilled their waste, while 30% of them sold it for poultry feed. The utilization of TSWs in poultry feed production in this country was limited to a maximum of 1.314% of the total annual production. Besides, the CP% was determined in the range of 24.24 - 13.32 % and 18.15 - 11.01 % for broiler starters and growers, respectively, where lower CP content was found only in unregistered feed mills. Trace amounts of Cr and Pb were identified in each of the feed samples at very low concentrations. In conclusion, it can be stated that the percentage of tannery solid wastes mixed poultry feed was generated in negligible amounts and the registered companies' feed was found normal in all aspects of the quality tested in the study. [ABSTRACT FROM AUTHOR]

Published

2024

35. Trabalhadores em curtumes nas solicitações de carteira profissional e nos processos trabalhistas, Pelotas (Rio Grande do Sul, Brasil), anos 1930/1940.

Author

Machado Lopes, Aristeu Elisandro

Subjects

JOB applications, LABOR disputes, LABOR courts, TANNERIES, LABOR contracts, PROFESSIONAL employees, LABOR process, KNOWLEDGE workers

Abstract

Copyright of Trashumante. Revista Americana de Historia Social is the property of Universidad de Antioquia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

36. Reducing Tannery Wastewater Pollutants through a Magnetic-Field and Ozone-Treatment Electrocoagulation System using Response Surface Methodology.

Author

Ascon, Edwar Aguilar, Saldaña, Liliana Marrufo, and Ascón, Walter Neyra

Subjects

RESPONSE surfaces (Statistics), TOTAL suspended solids, POLLUTANTS, SEWAGE, TANNERIES

Abstract

This study assessed the effectiveness of integrating electrocoagulation, magnetic fields, and ozonation technologies to remove chemical oxygen demand (COD) and total suspended solids (TSS) from tannery wastewater. Furthermore, the effects of their key operating factors were determined. To achieve this goal, an electrocoagulation reactor coupled with a magnetic-field generator was used and the response surface methodology was applied through a Box-Behnken experimental design. Here, current intensity (I), treatment time (T), and ozone concentration (O3) are considered the influencing factors. Likewise, the removal percentages of COD and TSS serve as response indicators. The results indicate that T, I, and O3 are significant for the removal of COD and TSS at a confidence level of p-value < 0.05. For COD, the optimal operating conditions are I = 6.8 A, T = 30 min, and O3 = 10 mg/l; and for TSS, the optimal conditions are I = 5.72 A, T = 28 min, and O3 = 7.8 mg/l. These conditions yield removal efficiencies of 41.8% for COD and 97.9% for TSS. The findings suggest that integrating these technologies is a viable alternative for mitigating the pollution issues caused by the tannery industry. [ABSTRACT FROM AUTHOR]

Published

2024

37. Treatment of tannery effluent with activated carbon derived from tannery sludge and wood wastes by co-pyrolysis method.

Author

Sakthivel, E. and Deepak, M.

Subjects

*ACTIVATED carbon, *WATER purification, *TANNERIES, *PHOSPHOROUS acid, *WASTEWATER treatment, *WOOD waste

Abstract

Porous Activated carbon (PAC) is used to treat tannery effluent by absorption process to satisfy the demand for wastewater treatment. Wood waste and tannery waste are the raw materials used to produce porous activated carbon (PAC) powder. Phosphorous acid treatment and calcination at different temperature conditions are carried out in the activated carbon preparation process, including two stages: production of pre carbonized carbon and the second being activation process. The samples are heated in the absence of air i.e pyrolysis process and are finally filtered and dried. The various electrochemical tool is used to determine the electrochemical property. Finally, the outcome would be activated carbon and we suggest it can be also used as a solution for various water purification problems. [ABSTRACT FROM AUTHOR]

Published

2023

38. Investigation of organic and inorganic matters removal from tannery wastewater using iron plate electrode by electrocoagulation process.

Author

Bingül, Züleyha, Irdemez, Şahset, Kul, Sinan, Ekmekyapar Torun, Fatma, and Demircioğlu, Nuhi

Subjects

*IRON electrodes, *INORGANIC compounds, *ORGANIC compounds, *SEWAGE, *TANNERIES, *CHROMIUM removal (Sewage purification)

Abstract

In this study, COD, turbidity, total nitrogen, phosphate, sulphate, oil-grease and chromium removals from wastewaters taken from a local tannery using the electrocoagulation process were examined and the most suitable parameters for the electrocoagulation system were tried to be determined. Soluble iron plate electrodes were used as electrodes in the experiments. As a result of the studies carried out, the most suitable initial pH in uncontrolled pH was determined as pH = 4 and for controlled pH as pH = 5. In studies, the most suitable current density for iron electrodes was determined as 1.2 mA cm−2. Even if the increase in current density increased the amount of dissolved Fe, it negatively affected the removal efficiency. In addition, the turbidity of the wastewater was removed in 30 minutes, phosphate in 20 minutes and chromium in 15 minutes by 100%. During 60 minutes of operation, while 62.91% of TN, 87.8% of oil-grease were removed, sulphate was removed at the rate of 54.78%. In the studies, 1st and 2nd order kinetic equations for COD removal were examined and it was determined that removal kinetic is more suitable for 2nd order kinetics. [ABSTRACT FROM AUTHOR]

Published

2023

39. Comprehensive technological assessment for different treatment methods of leather tannery wastewater.

Author

Nigam, Mohit, Mishra, Puranjan, Kumar, Pradeep, Rajoriya, Sunil, Pathak, Pankaj, Singh, Shraddha Rani, Kumar, Smita, and Singh, Lakhveer

Subjects

LIQUID waste, TANNING (Hides & skins), SEWAGE, TANNERIES, LEATHER, TANNINS, ELECTRICAL load shedding

Abstract

The leather-making process necessitates large amounts of water and consequently generates tons of liquid waste as leather tannery wastewater (TWW) is disposed of directly in the open environment. Open disposal of untreated TWW into the natural environment causes an accumulation of various polluting compounds, including heavy metals, dyes, suspended solids inorganic matter, biocides, oils, tannins, and other toxic chemicals. It thus poses potential hazards to the environment and human health. This study primarily focuses on providing in-depth insight into the characteristics, treatment strategies, and regulatory frameworks for managing TWW in leather processing industries. Different technologies of conventional physico-chemical (equalization, coagulation, and adsorption), advanced approaches (Fenton oxidation, ozonation, cavitation), thermo-catalytic and biological treatments available to treat TWW, and their integrative approaches were also highlighted. This review also sheds light on the most frequently applied technologies to reduce contaminant load from TWW though there are several limitations associated with it such as being ineffective for large quantities of TWW, waste generation during treatment, and high operational and maintenance (O&M) costs. It is concluded that the sustainable alternatives applied in the current TWW technologies can minimize O&M costs and recirculate the treated water in the environment. The exhaustive observations and recommendations presented in this article are helpful in the industry to manage TWW and recirculate the water in a sustainable manner. [ABSTRACT FROM AUTHOR]

Published

2023

40. Effect of controlled and uncontrolled pH on tannery wastewater treatment by the electrocoagulation process.

Author

Bingül, Züleyha, Irdemez, Şahset, and Demircioğlu, Nuhi

Subjects

*WASTEWATER treatment, *TANNERIES, *TANNING (Hides & skins), *ALUMINUM electrodes, *PH effect, *ENERGY consumption

Abstract

In this study, the effects of the pH of tannery wastewater obtained from a local leather processing factory on the removal of COD and turbidity, and cost of theelectrocoagulation process was investigated. Studies were carried out under two different operatingconditions. The highest COD removal efficiency was obtained as 83.5% when the initial pH was set to 3, while the energy consumption at this pH was found to be 3.88 kwh m−3. In studies where pH was kept constant, the highest removal efficiency obtained was 83.33% at pH = 5. In this case, the energy consumption was determined as 2.44 kWh m−3. The total cost of the system was calculated as 1.0899 $ m−3 under controlled pH conditions and 0.8761 $ m−3with uncontrolled pH. Studies show that the COD removal kinetics are more suited to 2nd degree kinetics. The highest removal rate for uncontrolled pH was k2 = 0.0791 L g−1 min−1 at pH = 3. The highest rate for controlled pH was k2 = 0.0397 L g−1 min−1 at pH = 5. [ABSTRACT FROM AUTHOR]

Published

2023

41. Continuous treatment of highly concentrated tannery wastewater using novel porous composite beads: Central composite design optimization study.

Author

Lissaneddine, Amina, Aziz, Khalid, Ouazzani, Naaila, El Achaby, Mounir, Haydari, Imane, Mandi, Laila, and Aziz, Faissal

Subjects

*CHROMIUM removal (Sewage purification), *FOURIER transform infrared spectroscopy, *SEWAGE, *TANNERIES, *PROCESS capability, *ADSORPTION kinetics

Abstract

This present study depicts the successful employment of fixed-bed column for total chromium removal from tannery wastewater in dynamic mode using sodium alginate-powdered marble beads (SA–Marble) as adsorbent. The SA–Marble composite beads prepared were characterized by Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (XRD), scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDS) and Brunauer, Emmett and Teller (BET) method. The adsorption process performance of this bio-sorbent was examined in batches and columns for real effluent (tannery wastewater). After 90 min, the total chromium removal efficiency could be kept above 90% in the batch experiment. The adsorption kinetics fit better with the pseudo-second-order model, indicating the chemisorption process and the adsorption capacity of about 67.74 mg g−1 at 293 K (C0 = 7100 mg L−1) was obtained. Additionally, dynamic experiments indicate that the total chromium removal efficiency could be maintained above 90% after 120 min at 293 K and 60 min at 318 and 333 K; it's an endothermic but rapid process. The effects of two adsorption variables (Temperature and time) were investigated using central composite design (CCD), which is a subset of response surface methodology (total Cr, COD, sulfate, and total phosphorus percentage removal). This work paves a new avenue for synthesizing SA–Marble composite beads and provides an adsorption efficiency of total chromium removal from tannery wastewater. Highlights: Powder marble coated in sodium-alginate beads (SA–Marble) was prepared & characterized, A reactor with a fixed bed was employed for the dynamic removal of total Cr from tannery wastewater, A capacity of 67.74 mg g−1 at 293 K (C0=7100 mg L-1) allows 90% total Cr removal after 90mn, Pseudo-II-order model simulates well the total Cr endothermic rapid chemisorption process, COD, SO2-4, and TP good removal suggest its use as a successful tannery wastewater treatment. [ABSTRACT FROM AUTHOR]

Published

2023

42. BIODEGRADABLE RETANNING MATERIAL FROM TANNERY TRIMMING WASTE: EXTRACTION, PREPARATION AND APPLICATION.

Author

Farhad ALI, Md., HAUQUE, Papia, ABDULLA-AL-MAMUN, Md., and JAMAN, Tamanna

Subjects

*TANNERIES, *BIODEGRADABLE products, *LEATHER industry, *WASTE management, *FORMALDEHYDE

Abstract

The leather industry has long grappled with environmental challenges associated with waste disposal. One ton of wet-salted hides or skins generates approximately 650 kg of solid waste. The majority of trims and hair waste remain underutilized, with hair often discarded or used inefficiently. We initiated the creation of a retanning agent devoid of formaldehyde by utilizing discarded tannery trimmings, with the goal of promoting a circular economy approach in the leather processing industry in our sustainability efforts. Optimal hydrolysis conditions were determined, involving an alkaline (3.75% w/w NaOH) pre-treatment followed by thermal hydrolysis at 100 °C for 5 hours, effectively maximizing the use of trimmings. Similar treatments were applied to hair waste, particularly red sheep hair, yielding successful hydrolysis. Keratin hydrolysate-g-methacrylic acid (KH-g-MA) copolymers were synthesized through in situ polymerization, employing hydrolysates in a redox system. Characterization was carried out using dynamic light scattering and Fourier transform infrared spectroscopy. These newly developed copolymers were applied as retanning agents in the leather industry, enhancing leather qualities such as fullness, grain tightness, and color brightness. Moreover, they improved leather mechanical strength and reduced the need for post-tanning chemicals. This innovative approach not only addresses solid waste issues but also contributes to greener leather processing, thereby fostering a more sustainable environmental landscape. [ABSTRACT FROM AUTHOR]

Published

2023

43. Improving Tannery Wastewater Treatments Using an Additional Microbial Treatment with a Bacterial–Fungal Consortium.

Author

Ameen, Fuad

Subjects

*WASTEWATER treatment, *POLLUTANTS, *TANNERIES, *CORYNEBACTERIUM glutamicum, *INDUSTRIAL wastes

Abstract

Simple Summary: Several large tanneries operate in Saudi Arabia. The tanneries produce more than 15,000 pieces of leather per day and 200 metric tons of wastewater per day. Leather manufacturing is a highly polluting activity throughout the world, and in many places, it is not known how efficient the wastewater treatments in the factories are. This was found to be the case in Saudi Arabia, where we revealed insufficient treatments in all four of the factories that we studied. We propose here an additional biological treatment using a bacterial–fungal consortium. Bacteria and fungi were isolated from tannery wastewaters, and their collagenase and gelatinase activities were measured to discover their potential to clean tannery wastewater. Different single bacteria and fungi and their consortia were used in the experiment to find the most suitable species for the treatment. The treatment appeared to be efficient, reducing almost all parameters to below the environmental regulation limit for wastewater discharge to the environment in Saudi Arabia. Environmental pollutants such as toxic heavy metals and oxygen-demanding solids are generated by leather manufacturing. In most tanneries, wastewaters are treated with physico-chemical methods but overly high levels of pollutants remain in surface waters. The efficiency of tanning wastewater treatment with conventional techniques was evaluated in four tanneries in Saudi Arabia. It was observed that the wastewaters contained high amounts of pollutants, needing further treatment. We isolated microorganisms from the wastewaters and carried out experiments to treat the effluents with different bacteria, fungi, and their consortia. We hypothesized that a consortium of microorganisms is more efficient than the single microorganisms in the consortium. The efficiency of five single bacterial and five fungal species from different genera was tested. In a consortium experiment, the efficiency of nine bacterial–fungal consortia was studied. The bacterium Corynebacterium glutamicum and the fungus Acremonium sp. were the most efficient in the single-microbe treatment. In the consortium treatment, the consortium of these two was the most efficient at treating the effluent. The factory wastewater treatment reduced total dissolved solids (TDS) from 1885 mg/L to 880 mg/L. C. glutamicum treatment reduced TDS to 150 mg/L and Acremonium sp. to 140 mg/L. The consortium of these two reduced TDS further to 80 mg/L. Moreover, the factory treatment reduced BOD from 943 mg/L to 440 mg/L, C. glutamicum to 75 mg/L, and Acremonium sp. 70 mg/L. The consortium reduced BOD further to 20 mg/L. The total heavy-metal concentration (Cd, Cr, Cu, Mn, and Pb) was reduced by the factory treatment from 43 μg/L to 26 μg/L and by the consortium to 0.2 μg/L. The collagen concentration that was studied using hydroxyproline assay decreased from 120 mg/L to 39 mg/L. It was shown that the consortium of the bacterium C. glutamicum and the fungus Acremonium sp. was more efficient in reducing the pollutants than the single species. The consortium reduced almost all parameters to below the environmental regulation limit for wastewater discharge to the environment in Saudi Arabia. The consortium should be studied further as an additional treatment to the existing conventional tannery wastewater treatments. [ABSTRACT FROM AUTHOR]

Published

2023

44. Assessing Heavy Metal Contamination Using Biosensors and a Multi-Branch Integrated Catchment Model in the Awash River Basin, Ethiopia.

Author

Jin, Li, Rampley, Cordelia, Abebe, Yosef, Bussi, Gianbattista, To, Trang Quynh, Ager, Duane, and Whitehead, Paul G.

Subjects

HEAVY metals, LEAD, SEWAGE purification, INDUSTRIAL wastes, BIOSENSORS, ARSENIC, WATERSHEDS

Abstract

Metal pollution in rivers from untreated industrial and domestic wastewater is a major issue in economically developing countries worldwide. The Awash River Basin in Ethiopia is one of those rivers that faces rising heavy metal concentrations due to poor wastewater management and loose law enforcement controlling effluent discharge into rivers. In this study, surface water and wastewater samples were collected within the Awash River Basin, with metals analysis using ICP-MS techniques. Acute toxicity of water was determined using new molecular biosensor technology based on engineered luminescent bacteria. A multi-branch Integrated Catchment Model (INCA) for metals, including Arsenic, Cadmium, Chromium, Copper, Lead, Manganese, and Zinc was applied to the Awash River Basin to simulate the impact of tannery discharge on the river water pollution levels and to evaluate a set of treatment scenarios for pollution control. Results show that all samples from tannery wastewater have high levels of metals, such as Chromium and Manganese with high levels of toxicities. River water samples from upper Awash near Addis Ababa showed elevated concentrations of heavy metals due to the untreated wastewater from the dense population and a large number of industries in that area. The modeling scenarios indicate that improved wastewater management will reduce the metal concentration significantly. With a 50% reduction in effluent concentrations, the mean concentrations of heavy metals (such as Chromium) over two years would be able to reach 20 to 50% reduction in river water samples. [ABSTRACT FROM AUTHOR]

Published

2023

45. Hexavalent chromium bioreduction by chromium-resistant sporulating bacteria isolated from tannery effluent.

Author

Reena and Jayachitra, A.

Subjects

HEXAVALENT chromium, ATOMIC absorption spectroscopy, CHROMIUM group, TANNERIES, BACILLUS subtilis, HEAVY metal content of water

Abstract

The main polluting source of heavy metal contamination of water is the leather tanning industry, which uses chrome powder and discharges it into the nearby ecosystem. In this investigation, chromium-resistant bacterial strains were isolated and characterized from tannery effluent. Based on morphological and biochemical characterization, the predominant sporulating Bacillus sp. was isolated and identified as Bacillus subtilis based on 16S rRNA gene sequencing. Chromium degradation by the bacterial strain was evaluated using the flask culture method at three different concentrations (300, 600, and 900 µg/ml) of Cr (VI), and the reduction potential of the isolated bacterium was analyzed by Atomic Absorption Spectrophotometry. A maximum reduction of approximately 78% was found at 24 hrs of incubation at pH 7 and at a constant temperature of 30°C. More than 50% of the Cr(VI) was decreased in 24 hours when the Cr(VI) concentration varied from 300 to 900 g/ml. FTIR analysis showed the involvement of hydroxyl and amine groups in chromium adsorption. As an outcome, this strain could be a promising bioagent for the environmentally friendly elimination of toxic Cr(VI) from polluted environments. [ABSTRACT FROM AUTHOR]

Published

2023

46. Hexavalent chromium release over time from a pyrolyzed Cr-bearing tannery sludge.

Author

Ghezzi, Lisa, Mugnaioli, Enrico, Perchiazzi, Natale, Duce, Celia, Pelosi, Chiara, Zamponi, Erika, Pollastri, Simone, Campanella, Beatrice, Onor, Massimo, Abdellatief, Mahmoud, Franceschini, Fabrizio, and Petrini, Riccardo

Subjects

*HEXAVALENT chromium, *HAZARDOUS wastes, *TANNERIES, *HAZARDOUS substances, *ATMOSPHERIC temperature, *MAGNETITE

Abstract

Pyrolysis in an inert atmosphere is a widely applied route to convert tannery wastes into reusable materials. In the present study, the Cr(III) conversion into the toxic hexavalent form in the pyrolyzed tannery waste referred to as KEU was investigated. Ageing experiments and leaching tests demonstrated that the Cr(III)–Cr(VI) inter-conversion occurs in the presence of air at ambient temperature, enhanced by wet environmental conditions. Microstructural analysis revealed that the Cr-primary mineral assemblage formed during pyrolysis (Cr-bearing srebrodolskite and Cr-magnetite spinel) destabilized upon spray water cooling in the last stage of the process. In the evolution from the higher to the lower temperature mineralogy, Cr is incorporated into newly formed CrOOH flakes which likely react in air forming extractable Cr(VI) species. This property transforms KEU from an inert waste to a hazardous material when exposed to ordinary ambient conditions. [ABSTRACT FROM AUTHOR]

Published

2023

47. Enabling simultaneous valorization of tannery effluent and waste plastic via sustainable preparation of Cr-BDC MOFs for water adsorption.

Author

Delhali, Achraf, Assen, Ayalew H., Mohammed, Aminat, Adil, Karim, and Belmabkhout, Youssef

Subjects

*PLASTIC scrap, *ALKALINE hydrolysis, *TANNERIES, *WASTE products, *WATER harvesting, *BOTTLED water

Abstract

Advanced materials undergo a complex and lengthy process of maturation for scaling up and deployment, mainly due to the high cost of their precursors. Therefore, it is highly desirable to fabricate highly valuable advanced porous solid-state materials, with proven applicability, by sustainably combining organic and inorganic waste materials as precursors. This study successfully demonstrates the preparation of Cr-terephthalate Metal–Organic Frameworks (Cr-BDC MOFs) by combining metal salt and organic linker extracted from tannery effluent and waste plastic bottles. The waste from tanneries was used as the source of Cr(III), while terephthalic acid was obtained from the alkaline hydrolysis of plastic bottles. Appropriate extraction and assembly processes led to the functional Cr-BDC MOFs, MIL-101(Cr) and MIL-53(Cr). The prepared MOFs showed similar properties (surface area, hydrolytic and thermal stability, and water adsorption performance) to similar MOFs synthesized from pure commercial-grade precursors, as confirmed by N2 sorption, XRD, TGA, and water adsorption experiments. The advancements made in this study represent significant progress in overcoming the bottleneck of MOF production cost efficiency via applying sustainability principles and pave the way for easy scaling-up and maturation of MOF-based processes, for air dehumidification and water harvesting as a case study. [ABSTRACT FROM AUTHOR]

Published

2023

48. Removal of toxic heavy metal ion from tannery effluent by using Fusarium subglutinans and Hylocereus undatus.

Author

Latha, A., Ganesan, R., Venkatesan, G., and Baraneedharan, P.

Subjects

HEAVY metals, METAL ions, TANNERIES, WATER pollution, FUSARIUM

Abstract

The major sources of aquatic pollution are tannery effluent from tannery industries. One of method for removing harmful metals from natural water and commercial refuse sources is biosorption of heavy metals. The chrome tannery wastewater sample was procured from State Industries Promotion Corporation of Tamil Nadu Ltd (SIPCOT). To isolate the metal-tolerant fungus with the ability to absorb heavier metal chromium, the gathered specimens were serially reduced. It offers a possible substitute for the traditional method of eliminating metals. The filtered fungal biomass Fusarium subglutinans and agro-waste biosorbent Hylocereus undatus are used to remove the Cr6+ which is present in tannery effluent. The atomic absorption spectrophotometer was used to ascertain the remaining Cr level in solution. The highest % elimination of Cr6+ for the mixed biosorbent was determined to be 98.67% at 50 mg/L starting Cr6+ content, 5 g biosorbent dose, pH 2.0, and 150 rpm agitation speed at room temperature. The optimal period for Cr6+ biosorption on the biosorbent was 60 min. Finding the biosorption process efficiency requires determining its balance. The equilibrium parameters were examined. The association coefficient (R2) for mixed biosorbent was discovered to be in the following order: Redlich-Peterson (0.9877) > Langmuir (0.8319) > Sips (0.7913) > Freundlich (0.5769). The findings indicated that mixed biosorbent had the capability to remove Cr6+, and the amount of Cr6+ removed from chrome tannery wastewater was determined to be 99.87%. The elimination of Cr6+ from chrome tannery wastewater is a practical, affordable, and environmentally beneficial procedure, according to the analysis of the processed effluent. [ABSTRACT FROM AUTHOR]

Published

2023

49. Current Advances in Design of Starch‐Based Superabsorbent Polymers and Their Removal of Typical Pollutants from Tannery Wastewater.

Author

Tan, Qiong, Chen, Hui, Chang, Haiqing, Woo, Meng Wai, and Liu, Wentao

Subjects

*SUPERABSORBENT polymers, *POLLUTANTS, *SEWAGE, *TANNERIES, *WASTEWATER treatment, *LEATHER industry

Abstract

With the vigorous development of the leather industry, the environmental pollution problem originating from tannery wastewater is becoming increasingly serious, which can be solved by using advanced adsorption technology. As a biodegradable natural biomaterial, starch has a wide range of sources and has gradually become one of the best choices for preparing superabsorbent polymers. The excellent characteristics of starch‐based superabsorbent polymer make it widely applied in wastewater treatment. Therefore, this paper reviews the research progress of starch‐based superabsorbent polymer in recent years by removing metal ions and typical organic compounds from tannery wastewater. Firstly, the synthesis methods and characteristics of starch‐based superabsorbent polymers are discussed. Secondly, the main factors influencing the adsorption performance of starch‐based superabsorbent polymer have been introduced. Thirdly, the present situation of treating tannery wastewater with starch‐based superabsorbent polymer is summarized. Finally, some problems existing in the practical application of starch‐based superabsorbent polymer are proposed. Although starch‐based superabsorbent polymer shows excellent adsorption properties, there remain several issues such as recycling that needed to be addressed. This review is of benefit for the high‐value utilization of starch‐based superabsorbent polymers in reducing environmental pollution caused by tannery wastewater. [ABSTRACT FROM AUTHOR]

Published

2023

50. Enhanced UV/H 2 O 2 System for the Oxidation of Organic Contaminants and Ammonia Transformation from Tannery Effluents.

Author

Urbina-Suarez, Néstor A., López-Barrera, German L., García-Martínez, Janet B., Barajas-Solano, Andrés F., Machuca-Martínez, Fiderman, and Zuorro, Antonio

Subjects

POLLUTANTS, OPTIMAL designs (Statistics), TANNERIES, ORGANIC water pollutants, OXIDATION, ULTRAVIOLET lamps, AMMONIA, HYDROGEN peroxide

Abstract

In this work, a UV/H2O2 system in real tannery wastewater was evaluated by an experimental design with optimal stage 2-level I-optimal reaction surface using Design Expert software to analyze the effects of temperature, pH, UV lamp power (W), and H2O2 concentration on COD removal and nitrification. It was found that pH and temperature were the variables that affected the process the most. It was found that an acidic pH of 4.5–5.5 and temperatures between 50 and 70 °C favored improved COD and ammonium oxidation. The process conditions—temperature 54.6 °C, pH 4, pW-UV 60 W and hydrogen peroxide 0.5—were confirmed in the next phase of the study using a one-way statistical analysis ANOVA. Under these conditions, the nitrite removal rate was 98.4%, ammonium 94.53%, chromium 92.3%, chlorides 62.4%, BOD 67.4%, COD 44.5%, and color 48%. [ABSTRACT FROM AUTHOR]

Published

2023