Showing total 5 results

1. Comprehensive analysis on sorptive uptake of enrofloxacin by activated carbon derived from industrial paper sludge

Author

Tamal Mandal, Somnath Chowdhury, Gopinath Halder, and Jaya Sikder

Subjects

Exothermic reaction, Paper, Thermogravimetric analysis, Environmental Engineering, 010504 meteorology & atmospheric sciences, chemistry.chemical_element, Industrial Waste, 010501 environmental sciences, Wastewater, 01 natural sciences, symbols.namesake, Adsorption, medicine, Environmental Chemistry, Response surface methodology, Waste Management and Disposal, 0105 earth and related environmental sciences, Enrofloxacin, Aqueous solution, Chemistry, Langmuir adsorption model, Book Industry, Pollution, Anti-Bacterial Agents, Chemical engineering, Charcoal, symbols, Carbon, Water Pollutants, Chemical, Activated carbon, medicine.drug

Abstract

The current investigation deals with how chemically activated carbon derived from industrial paper sludge (ACPS) performs on sorptive removal of enrofloxacin (ENF), an antibacterial drug from its water solution. Thermogravimetric (TGA) and proximate analysis of raw paper sludge (RPS) were conducted. ACPS was characterized with proximate analysis, XRD, FT-IR, SEM and BET. The influence of five operational parameters viz. adsorbate concentration (initial), dose of adsorbent, pH, temperature, and contact time on the adsorption of ENF onto ACPS has been conducted using batch experiments. The process of adsorption was optimized through ANN (artificial neural network) in addition to RSM (response surface methodology). The maximum percentage removal (95.85%) was achieved at initial ENF concentration 12 mg/g, adsorbent dose 1.2 g/L, contact duration of 18 h and temperature 20 °C. Kinetic data were best fitted into pseudo-second order kinetic model and adsorption equilibrium study indicates that the adsorption process follows Langmuir isotherm model. Adsorption capacity was noted to have a highest value of 44.44 mg/g. A study on thermodynamics of the adsorption process suggests that it exhibits spontaneity, being essentially exothermic. Cost analysis and reusability study confirm that adsorbent produced from industrial paper sludge is cost-effective and reusable. Therefore, ACPS as adsorbent has potency for removing ENF from aqueous solution.

Published

2018

2. Removal of phosphorus from wastewaters by biomass ashes

Author

Rui Barbosa, Benilde Simões Mendes, A. Morujo, Nuno Lapa, and Helena Lopes

Subjects

Paper, Langmuir, Environmental Engineering, Wastewater, engineering.material, Coal Ash, Waste Disposal, Fluid, Phosphates, Animals, Freundlich equation, Water Science and Technology, Waste management, business.industry, Chemistry, Pulp (paper), Book Industry, Forestry, Paper mill, Pulp and paper industry, Aliivibrio fischeri, Fly ash, Bottom ash, engineering, Artemia, Ecotoxicity, business, Water Pollutants, Chemical

Abstract

Removal batch assays of phosphates from a synthetic wastewater (SWW) and a pulp and paper mill wastewater (PPWW) with two forestry biomass ashes were performed. The supernatants were not only chemically characterized but also the ecotoxicity was determined using two organisms: Vibrio fischeri and Artemia franciscana. The addition of fly ash and bottom ash to the SWW in solid/liquid (S/L) ratios of 3.35 and 9.05 g L−1, respectively, achieved removal percentages of phosphates >97% for both ashes. The addition of fly ash and bottom ash to the PPWW in S/L ratios of 34.45 and 46.59 g L−1, respectively, yield removal percentages of phosphates >90% for both ashes. According to the results of the Langmuir and Freundlich isotherms, the removal of phosphates from the SWW was mainly explained by surface removal mechanisms, while the removal from the PPWW was partially explained by multi-layer mechanisms. The supernatants resulting from the treatment of SWW and PPWW with both biomass ashes did not present acute ecotoxicity.

Published

2013

3. Concretes and mortars with waste paper industry: Biomass ash and dregs

Author

Antonio Ramírez-Rodríguez, Pablo Vázquez-Burgo, Marcos Rivas-Fernández, Miriam Velay-Lizancos, Isabel Martínez-Lage, Cristina Vázquez-Herrero, and Miguel Martín-Cano

Subjects

Paper, Environmental Engineering, Materials science, Compressive Strength, 020209 energy, 0211 other engineering and technologies, Biomass, Industrial Waste, 02 engineering and technology, Management, Monitoring, Policy and Law, Industrial waste, Flexural strength, 021105 building & construction, Ultimate tensile strength, 0202 electrical engineering, electronic engineering, information engineering, Green liquor, Waste Management and Disposal, Cement, Waste management, Construction Materials, Water, Book Industry, General Medicine, Pulp and paper industry, Silicon Dioxide, Compressive strength, Mortar

Abstract

This article describes a study on the viability of using waste from the paper industry: biomass boiler ash and green liquor dregs to fabricate mortars and concretes. Both types of ash were characterized by obtaining their chemical and mineralogical composition, their organic matter content, granulometry, adsorption and other common tests for construction materials. Seven different mortars were fabricated, one for reference made up of cement, sand, and water, three in which 10, 20, or 30% of the cement was replaced by biomass ash, and three others in which 10, 20, or 30% of the cement was replaced with dregs. Test specimens were fabricated with these mortars to conduct flexural and compression tests. Flexural strength is reduced for all the mortars studied. Compressive strength increases for the mortars fabricated with biomass ash and decreases for the mortar with dregs. Finally, 5 concretes were made, one of them as a reference (neither biomass ash nor dregs added), two of them with replacements of 10 and 20% of biomass ash instead of cement and another two with replacements of 10 and 20% of dregs instead of cement. The compressive and tensile splitting strength increase when a 10% of ash is replaced and decrease in all the other cases. The modulus of elasticity always decreases.

Published

2016

4. Fenton-like degradation of Methylene Blue using paper mill sludge-derived magnetically separable heterogeneous catalyst: Characterization and mechanism

Author

Guoqiang Zhou, He Yuefeng, Fang Fei, Huixiang Shi, Ziwen Chen, and Haili Sun

Subjects

Paper, Environmental Engineering, Industrial Waste, Heterogeneous catalysis, Ferric Compounds, Catalysis, chemistry.chemical_compound, Environmental Chemistry, Fourier transform infrared spectroscopy, Coloring Agents, General Environmental Science, Reusability, Waste management, Sewage, Chemistry, business.industry, Paper mill, Book Industry, General Medicine, Environmentally friendly, Methylene Blue, Chemical engineering, Leaching (metallurgy), business, Methylene blue

Abstract

For the paper industry, the disposal and management of the yielded sludge are a considerable challenge. In our work, the paper mill sludge-derived magnetically separable heterogeneous catalyst (PMS-Fe-380) was prepared easily through a facile synthesis method. The morphology and structure of PMS-Fe-380 were fully characterized by means of X-ray diffraction, Fourier transform infrared spectroscopy, scanning electron microscopy, and Brunauer-Emmet-Teller analysis. The catalytic activity of PMS-Fe-380 was evaluated by degradation of Methylene Blue (MB). The reusability and stability of PMS-Fe-380 were evaluated in five repeated runs, which suggested that PMS-Fe-380 manifested excellent stability of catalytic activity. Moreover, leaching tests indicated that the leached iron is negligible (

Published

2014

5. Sample preparation and determination of biomass content in solid recovered fuels: a comparison of methods

Author

J. Schnöller, Johann Fellner, Philipp Aschenbrenner, and Manuel Hahn

Subjects

Waste characterisation, Imagination, Paper, Environmental Engineering, Chemical substance, Materials science, Waste management, Pulp (paper), media_common.quotation_subject, Industrial Waste, Book Industry, engineering.material, Combustion, Pulp and paper industry, Pollution, Elemental analysis, Biofuels, engineering, Sample preparation, Biomass, Dissolution, Algorithms, media_common, Environmental Monitoring

Abstract

The biomass content of material from pulp and paper production (a mixture of waste and paper and thin layer packaging plastics) is determined by the adapted balance method. This novel approach is a combination of combustion elemental analysis (CHNSO) and a data reconciliation algorithm based on successive linearisation for evaluation of the analysis results. It also involves less effort and expense than conventional procedures. However, the CHNSO technique only handles small mass amounts (few hundred milligrams), so cryogenic impact milling was applied for particle size reduction below 200 µm in order to generate homogeneous, representative analysis samples. The investigation focuses on the parameters biogenic content as a percentage of the total mass xB and xBTC, which is the biomass stated as a fraction of the total carbon value. The results are within 1%–5% of the data obtained by the reference methods, namely the selective dissolution method and 14C- method. Additionally, advantages and drawbacks of the adapted balance method in comparison with standard methods are discussed, showing that the adapted balance method is a method to be considered for the determination of biomass content in solid recovered fuels or similar materials.

Published

2014