Showing total 14 results

1. Enhanced lead adsorption by unbleached newspaper pulp modified with citric acid.

Author

Pitsari, S., Tsoufakis, E., and Loizidou, M.

Subjects

*LEAD compounds, *ADSORPTION (Chemistry), *PAPER, *MECHANICAL behavior of materials, *CITRIC acid, *THERMOCHEMISTRY, *SURFACE charges

Abstract

Abstract: A thermochemical method was performed to enhance lead adsorption of unbleached newspaper pulp. Unbleached pulp was obtained after mechanical treatment of waste newspaper and was chemically modified with citric acid (CA) at 90°C for 90min. The parameters under investigation were the pH of adsorption solution (3–9), the concentration of mechanically and chemically treated pulps (0.1–1g), the concentration of CA (0.5M and 1M), the initial concentration of lead (20–1000mg/l) and the pulp-lead solution contact time (0–24h). The maximum adsorption capacity of mechanically treated newspaper pulp (MT-pulp) increased by 35% (25.71mg/g) after modification with 0.5M CA and 82% (34.6mg/g) with 1M CA. The modification process resulted in higher negative values of zeta potential and surface charge of mechanically treated pulp reaching the highest charge and maximum lead adsorption at pH=6. The adsorption experimental data fitted well to the Langmuir isotherm model and inferred that adsorption and ion-exchange are major mechanisms for binding Pb2+ ions. Kinetic studies for three different concentrations of Pb2+ showed that the adsorption process involved two stages and the experimental data followed the pseudo-second order model. The results showed that CA-modified newspaper pulp is an effective adsorbent for the removal of Pb2+ from wastewater. [Copyright &y& Elsevier]

Published

2013

2. Effect of cationic polyacrylamide dissolution on the adsorption state of gold nanoparticles on paper and their Surface Enhanced Raman Scattering properties

Author

Ngo, Ying Hui, Li, Dan, Simon, George P., and Garnier, Gil

Subjects

*POLYACRYLAMIDE, *DISSOLUTION (Chemistry), *CATIONS, *ADSORPTION (Chemistry), *GOLD nanoparticles, *SURFACE enhanced Raman effect, *PAPER

Abstract

Abstract: This study examines and quantifies the effect of cationic polyacrylamide (CPAM) dissolution kinetics and charge density on the adsorption and aggregation state of gold nanoparticles (AuNPs) on paper and the resulting Surface Enhanced Raman Scattering (SERS) performance. Dissolution kinetics of CPAM of different charge density was studied by monitoring their viscosity and hydrodynamic diameter over regular intervals of time. It was found that the degree of dissolution of CPAM greatly affected the surface coverage and aggregation of AuNPs on the CPAM pre-adsorbed paper substrate and their SERS reproducibility. CPAM of higher charge density dissolves faster and produced a more uniform aggregation and higher surface coverage of AuNPs on paper for a higher and more reproducible Raman EF. Understanding the CPAM dissolution process enables the optimization of SERS performance of the AuNPs-paper as a bio-diagnostic platform. [Copyright &y& Elsevier]

Published

2013

3. Direct measurement of alkaline phosphatase kinetics on bioactive paper

Author

Khan, Mohidus Samad and Garnier, Gil

Subjects

*ALKALINE phosphatase, *ENZYME kinetics, *BIOACTIVE compounds, *ADSORPTION (Chemistry), *PAPER, *MEASUREMENT, *IMAGE analysis, *COLORIMETRIC analysis

Abstract

Abstract: The reaction kinetics of alkaline phosphatase (ALP) adsorbed on paper was quantified by image analysis using a colorimetric technique under conditions of excess enzyme. A classical reaction kinetics approach integrated with image processing technique was used to analyse the coloured product formation from the enzyme substrate reaction against time. The order of reaction and rate constant of enzyme activities on paper surface were calculated. ALP was either physisorbed directly on paper or adsorbed on paper treated with a monolayer of a high molecular weight cationic polyacrylamide (CPAM), an anionic polyacrylic acid (PAA) or a high molecular weight polyethylene oxide (PEO). The reaction rate of enzymatic paper follows a first order reaction with respect to the concentration of enzyme–substrate complex. ALP immobilized on paper has a reaction rate 2 to 3 orders of magnitude lower than the free ALP enzyme in buffer solution. This might be due to a critical loss of enzyme flexibility upon adsorption. No increase in reaction rate was achieved by immobilizing ALP on paper treated with a high molecular weight cationic polyacrylamide (CPAM) or a highly charged anionic polyacrylic acid oligomer (PAA), which suggests the enzyme orientation was not significantly affected. However, the reaction rate for ALP on PEO treated paper was lower than that on CPAM or PAA treated papers. That is probably due to some PEO-enzyme interaction affecting the tertiary structure of the ALP enzyme. [Copyright &y& Elsevier]

Published

2013

4. Pyrolysis of polyethylene mixed with paper and wood: Interaction effects on tar, char and gas yields

Author

Grieco, E.M. and Baldi, G.

Subjects

*PYROLYSIS, *POLYETHYLENE, *PLASTICS, *REFUSE disposal facilities, *MIXTURES, *PREDICTION models, *ADSORPTION (Chemistry), *DESORPTION

Abstract

Abstract: In the present study the interactions between the main constituents of the refuse derived fuel (plastics, paper, and wood) during pyrolysis were studied. Binary mixtures of polyethylene-paper and polyethylene/sawdust have been transformed into pellets and pyrolyzed. Various mixtures with different composition were analyzed and pyrolysis products (tar, gas, and char) were collected. The mixtures of wood/PE and paper/PE have a different behavior. The wood/PE mixtures showed a much reduced interaction of the various compounds because the yields of pyrolysis products of the mixture can be predicted as linear combination of those of the pure components. On the contrary, a strong char yield increase was found at a low heating rate for paper/PE mixtures. In order to explain the results, the ability of wood and paper char to adsorb and convert the products of PE pyrolysis into was studied. Adsorption and desorption tests were performed on the char obtained by paper and wood by using n-hexadecane as a model compound for the heavy products of PE pyrolysis. [Copyright &y& Elsevier]

Published

2012

5. Ceramic papers containing Y zeolite for toluene removal

Author

Cecchini, Juan Pablo, Serra, Ramiro M., Barrientos, César M., Ulla, María A., Galván, María V., and Milt, Viviana G.

Subjects

*PAPER, *CERAMICS, *ZEOLITES, *TOLUENE, *ADSORPTION (Chemistry), *HYDROCARBONS, *SEPARATION (Technology)

Abstract

Abstract: A papermaking technique with a dual polyelectrolyte retention system was used for the preparation of NaY zeolite-containing papers, which implied the use of cationic and anionic polymers. Two kinds of fibers were employed, either cellulosic or ceramic ones, and accordingly papers with different characteristics were obtained: those that only contained cellulosic fibers for low temperature applications, cellulosic papers, and those prepared using both cellulosic and ceramic fibers – ceramic papers – for high temperature applications. Although a decrease in their mechanical properties due to calcination was observed, zeolitic ceramic papers resulted easy to handle for practical applications. Zeolite was quantified through BET surface area measurements. SEM images indicated a good dispersion of zeolite particles within the cellulosic paper whereas in the ceramic paper they appeared anchored on ceramic fibers. The zeolitic papers prepared resulted efficient as toluene sorbents, the adsorption capacities of zeolitic ceramic papers being higher than those of zeolitic cellulosic papers. In the case of zeolitic cellulosic papers, the amounts of released toluene were lower than those of adsorbed toluene, implying that the treatment up to 160°C did not completely eliminate the hydrocarbon. Also, TPD profiles showed that toluene is chemically retained up to high temperatures (ca. 420°C) in zeolitic ceramic papers. Toluene adsorption values demonstrate that zeolite dispersed into the cellulose/ceramic matrix is as effective as powder massive zeolite in retaining the hydrocarbon, which highlights the potential application of these zeolitic structures as sorbent materials both for low and high temperatures. [Copyright &y& Elsevier]

Published

2011

6. Effect of the Adsorptive Character of Filter Papers on the Concentrations Determined in Studies Involving Heavy Metal Ions.

Author

Engin, Mehmet Soner, Uyanik, Ahmet, Cay, Seydahmet, and Icbudak, Hasan

Subjects

*HEAVY metals, *METAL ions, *PAPER, *FILTERS & filtration, *ADSORPTION (Chemistry), *SOLUTION (Chemistry), *PH effect, *ACTIVATED carbon

Abstract

Analytical filter papers are generally made of fibrous cellulose which has the potential to adsorb metal ions. In this study, blue band ashless filter paper was used to demonstrate one of the sources of error in the determination of the concentration of Fe2+, Co2+, Mn2+, Cd2+, Cu2+, Pb2+ and Zn2+ ions. For this purpose, the metal ion content of standard solutions in the 1-100 mg/l concentration range was analysed via FAAS before and after the filtration process. The corresponding results and the calculated percentage errors due to adsorption are presented. The effect of pH on the adsorption process was also investigated. Activated carbon and soil samples were spiked with each metal ion and the solid phases from the resulting solutions were separated by both filter paper methods and centrifugation. In the statistical estimation of the results, the paired t-test was applied for non-filtered and filtered solutions in the concentration range 1-100 mg/l using the data analysis tools available in MS Excel®. The use of filter paper caused systematic errors, particularly at lower metal concentrations, and hence centrifugation or a filtering process using techniques other than filter paper is favoured as a better approach towards estimating the concentration of heavy metal ions from aqueous solution. [ABSTRACT FROM AUTHOR]

Published

2010

7. Thermodynamic Analysis of Water Vapor Sorption Isotherms and Mechanical Properties of Selected Paper-Based Food Packaging Materials.

Author

JONG-WHAN RHIM and JUN HO LEE

Subjects

*FOOD packaging, *ADSORPTION (Chemistry), *ATMOSPHERIC temperature, *MOISTURE, *WATER vapor transport, *CELLULOSE fibers

Abstract

Adsorption isotherms of 3 selected paper-based packaging materials, that is, vegetable parchment (VP) paper, Kraft paper, and solid-bleached-sulfate (SBS) paperboard, were determined at 3 different temperatures (25, 40, and 50 °C). The GAB isotherm model was found to fit adequately for describing experimental adsorption isotherm data for the paper samples. The monolayer moisture content of the paper samples decreased with increase in temperature, which is in the range of 0.0345 to 0.0246, 0.0301 to 0.0238, and 0.0318 to 0.0243 g water/g solid for the MG paper, the Kraft paper, and the SBS paperboard, respectively. The net isosteric heats of sorption ( qst) for the paper samples decreased exponentially with increase in moisture content after reaching the maximum values of 18.51, 27.39, and 26.80 kJ/mol for the VP paper, the Kraft paper, and the SBS paperboard, respectively, at low-moisture content. The differential enthalpy and entropy of 3 paper samples showed compensation phenomenon with the isokinetic temperature of 399.7 K indicating that water vapor had been adsorbed onto the paper samples with the same mechanism. Depending on the paper material, tensile strength of paper samples was affected by moisture content. [ABSTRACT FROM AUTHOR]

Published

2009

8. PERMEABILITY REDUCTION PHENOMENA IN PACKED BEDS, FIBER MATS, AND WET WEBS OF PAPER EXPOSED TO FLOW OF LIQUIDS AND SUSPENSIONS: A REVIEW.

Author

Hubbe, Martin A., Hao Chen, and Heitmann, John A.

Subjects

*PERMEABILITY, *ADSORPTION (Chemistry), *PAPER, *SUSPENSIONS (Chemistry), *CELLULOSE, *GLUCANS

Abstract

Filter media, including those prepared from cellulosic materials, often suffer from permeability loss during continued use. To help understand such issues, one can take advantage of an extensive body of related research in such fields as industrial filtration, water purification, enhanced oil recovery, chromatography, paper manufacture, and the leaching of pollutants from impoundments. Though the mechanisms that appear to govern permeability-loss phenomena depend a lot on the details of various applications, the published research has revealed a number of common features. In particular, flow through a porous bed or fiber mat can be markedly reduced by deposition of particles or colloidal matter in positions that either block or partially restrict fluid flow. Progress has been achieved in the development of mechanistic models, as well as the use of such models in numerical simulations to explain various experimental findings. Further research of this type needs to be applied to cellulosic materials, which tend to be much more elongated in comparison to the bed materials and suspended matter considered most often by most researchers active in research related to permeability loss. [ABSTRACT FROM AUTHOR]

Published

2009

9. Preparation of porous materials with ordered hole structure

Author

Hoa, Marcus Liew Kai, Lu, Meihua, and Zhang, Yong

Subjects

*POROSITY, *PAPER, *HOLES (Electron deficiencies), *ADSORPTION (Chemistry)

Abstract

Abstract: This review paper investigates the synthesis of porous structures with controlled hole pattern and provides an overall view of the various factors involved when synthesizing such porous materials. The following factors are discussed: 1) various methods of synthesis to produce the porous structures; 2) materials which the porous structures are made of; 3) control of the pore structure; 4) various applications of such porous materials. The materials of the porous structures and the control of the pore structure will also be discussed separately under each different method, as these two factors are closely dependent on the method of fabrication. [Copyright &y& Elsevier]

Published

2006

10. Single-Walled Carbon Nanotube Paper as a Sorbent for Organic Vapor Preconcentration.

Author

Feng Zheng, Baldwin, David L., Fifield, Leonard S., Anheier, Jr., Norman C., Aardahl, Christopher L., and Grate, Jay W.

Subjects

*NANOTUBES, *ADSORPTION (Chemistry), *THERMAL desorption, *PAPER, *TUBES, *SAMPLING (Process), *VAPORS, *METHYL ethyl ketone, *TOLUENE, *TEMPERATURE, *POLYMERS

Abstract

Single-walled carbon nanotubes were examined as an adsorptive material for a thermally desorbed preconcentrator for organic vapors. The nanotubes were processed into a paper form and packed into a metal tube for flow- through sampling. Adsorbed vapors were released by a temperature-programmed desorption method and detected downstream with a flexural plate wave vapor sensor. The tested vapors, methyl ethyl ketone, toluene, and dimethyl methylphosphonate, were released from the packed column at different temperatures. The vapors were retained more strongly than previously observed for the widely used Tenax porous polymer, indicating a significant affinity of the single walled nanotubes for organic vapors. [ABSTRACT FROM AUTHOR]

Published

2006

11. The 3D structure of fabric and its relationship to liquid and vapor transport

Author

Ramaswamy, S., Gupta, M., Goel, A., Aaltosalmi, U., Kataja, M., Koponen, A., and Ramarao, B.V.

Subjects

*MANUFACTURING processes, *TEXTILES, *PAPER, *FIBERS, *POROSITY, *ADSORPTION (Chemistry)

Abstract

Polymeric carrier fabrics are commonly used in many industrial processes including manufacture of paper and board. Apart from acting as a carrier for the compressible porous material during the manufacturing process, the synthetic woven fabrics comprising mainly of poly ethylene terypthalate (PET) yarns, impart valuable product attributes, i.e. softness, bulk, absorbency, etc. in consumer products. The three-dimensional structure of the fabrics plays a critical role in deciding the manufacturing and energy efficiency as well as product end-use properties.X-ray micro computed tomography (X-μCT) provides a non-intrusive technique to visualize and analyze the three-dimensional structure of porous materials such as paper [The 3 Dimensional Structure of Paper and Its Relationship to Liquid and Vapor Transport, The Science of Papermaking, p. 1289; Tappi J 84 (2001) 1; APPITA 55 (2002) 230]. In this paper, we use this technique to visualize the three-dimensional structure of polymeric fabrics commonly used in paper manufacture [The 3 Dimensional Structure of Paper and Its Relationship to Liquid and Vapor Transport, The Science of Papermaking, p. 1289; Tappi J. 84 (2001) 1; APPITA 55 (2002) 230]. Digital image analysis techniques based on mathematical morphology and stereology were used to determine traditional pore descriptors such as porosity, yarn–void interfacial area, tortuosity and hydraulic radii distribution in the two principal orthogonal directions [The 3 Dimensional Structure of Paper and Its Relationship to Liquid and Vapor Transport, The Science of Papermaking, p. 1289; APPITA 55 (2002) 230]. Comparison of the average yarn diameter by X-μCT and image analysis and physical measurement using light microscopy agreed to within 3% indicating the good accuracy of the X-ray technique. The differences in fabric pore structural characteristics between the in-plane and transverse directions reported here help explain the differences in liquid and vapor transport in the two principal directions.Lattice-Boltzmann simulations of fluid flow and Monte-Carlo simulations of vapor diffusion through actual 3D structures of fabric provide a direct method to predict the permeability and diffusivity characteristics of these complex media. Comparison of structural characteristics between image analysis and simulations show reasonable agreement. [Copyright &y& Elsevier]

Published

2004

12. Starch Penetration into Paper in a Size Press.

Author

Shirazi, M., Esmail, N., Garnier, G., and van de Ven, T.G. M.

Subjects

*STARCH, *PRESS, *PAPER, *SURFACE chemistry, *ADSORPTION (Chemistry), *X-ray microscopy

Abstract

One of the surface treatments of paper is surface sizing. In this operation, hydrophobic polymers are added to paper in a size press, usually dissolved in an aqueous starch solution. We investigated the penetration of starch solutions in paper in a puddle size press. Starch penetration in paper was followed by x-ray microscopy. A mathematical model was developed, which explains the observed penetration depths. The model is an extension of the classical Lucas–Washburn theory, modified by a build-up of pressure inside the sheet during liquid penetration. The model predicts liquid penetration as a function of paper speed, nip load, viscosity of sizing solution and porosity, and surface chemistry of paper. [ABSTRACT FROM AUTHOR]

Published

2004

13. Solid-phase microcolumn extraction and gas chromatography–mass spectrometry identification of volatile organic compounds emitted by paper

Author

Hrivňák, Ján, Tölgyessy, Peter, Figedyová, Soňa, and Katuščák, Svetozár

Subjects

*GAS chromatography, *VOLATILE organic compounds, *SOLID phase extraction, *ADSORPTION (Chemistry), *PAPER, *THERMAL desorption, *CHROMATOGRAMS

Abstract

Abstract: A rapid non-destructive sampling technique for the analysis of volatile organic compounds (VOCs) emitted by paper sheets is described. A capillary, which is connected to a microcolumn packed with Tenax TA, is inserted between two sheets at the centre of a paper stack encapsulated inside a PET/Al/PE composite foil. The other end of the microcolumn is connected to a gas-tight syringe and an appropriate volume of gaseous phase is aspirated. The microcolumn is then thermally desorbed in a modified GC inlet (modification is presented) and analysed by gas chromatography–mass spectrometry (GC–MS). In the chromatogram from the analysis of artificially aged paper sample 21 compounds were identified. Advantages of the method including the short sampling time (1min), simplicity and economic aspect are discussed. [Copyright &y& Elsevier]

Published

2009

14. Dielectric and polarization behaviour of cellulose electro-active paper (EAPap).

Author

Young Yun, Hyung Kim, and Jaehwan Kim

Subjects

*PAPER, *CELLULOSE, *DIELECTRICS, *POLARIZATION (Electricity), *LOW temperatures, *ADSORPTION (Chemistry), *SMART materials, *SPACE charge

Abstract

Dielectric and polarization behaviour of electro-active paper (EAPap) were studied to understand the detailed material behaviour of EAPap as a novel smart material. It was revealed that the dielectric constant of EAPap was temperature and frequency dependent. The largest change in the dielectric constant was observed near 0 degC while the highest dielectric constant was obtained at around 100 degC, which might be related to the dipolar behaviour of the hydroxyl structure of cellulose and adsorbed or existing internal water molecules in cellulose EAPap. By thermal stimulated current measurement for polarization behaviour of cellulose EAPap, it was shown that the maximum current was observed in the temperature range 105-110 degC. Compared with the polarization behaviour in the low temperature range, abnormal polarization was observed under an applied field mainly due to the trapped space charge in EAPap, which indicates that cellulose EAPap has a similar material behaviour to that of electret polymers. [ABSTRACT FROM AUTHOR]

Published

2009