The fabrication of a flexible PEMFC.

SHIU, WEI-TING

20 January 2010

In recent years, an increasing pursuit of product appearance, so the surface appearance of the product are the main arc, but if we can develop the flexible fuel cells, fuel cells will be able to scratch-type adhesive on the product curved surface, not only for product supply and portable, low pollution have great potential for portable fuel cells. Performance of the experiment found that the decision lies in the amount of carbon fiber bundles, softness and spring pressure on the uniformity imposed by such factors. The experiment that bending radius of curvature of 45.5cm, the battery around the X, Y, XY axis deflection performance and the performance is not the same, and the radius of curvature around the X-axis deflection narrow, performance is not reduced, around the XY axis deflection narrow the radius of curvature, the performance has not decreased significantly, but the radius of curvature around the Y-axis deflection reduced, performance has slightly dropped, from IV Curve that the radius of curvature smaller fiber bundles and electrode contact resistance also increases, but this performance decline in the acceptable range. This will be a torsion-type fuel cell, can be the radius of curvature 45.5 ~ 10.58cm or less within the flexural performance, this battery has the potential of portable fuel cells, advantages of low pollution, high efficiency and easy to carry.

current collectors

Flexible

cell structure

Studies with hyperthermophilic archaeal glycolytic enzymes

Crowhurst, Georgina Sheila Ellen

January 2000

No description available.

572

Cell structure; Proteins; Microorganisms

SiCディーゼル微粒子フィルタの耐久性能

Yamamoto, Kazuhiro, Tsuneyoshi, Koji, 山本, 和弘, 常吉, 孝治

07 1900

No description available.

Durability

Cell structure

Evaluation

Particulate filter

Heat engine

Stochastic modeling of flow behavior and cell structure formation during extrusion of biopolymer melts

Manepalli, Pavan Harshit

January 1900

Master of Science / Department of Grain Science and Industry / Sajid Alavi / Extrusion is a widely used processing technology for various food products and is also commonly applied in non-food applications involving plastics, rubber and metal. Expanded products for human and animal consumption such as snacks, breakfast cereal, pet food and aquatic food typically consist of a biopolymer matrix of starch and proteins that have natural physical, chemical and polymeric variability. Additionally, variability in extrusion parameters such as water injection and screw speed is often observed depending on the process controls employed. This can potentially lead to inconsistency in product quality. Stochastic modeling helps in studying the impact of variability of various parameters on the end product, which in turn helps in better process and product quality control. The primary purpose of this research was to develop a mathematical model for flow behavior of biopolymer melts inside extruder barrel and bubble growth dynamics after exiting the extruder using mass, heat and momentum transfer equations. This model was integrated with a Monte-Carlo based stochastic interface for input of randomly generated process data (based on experimental data acquisition) and output of simulated distributions of end-product properties such as expansion ratio and cellular architecture parameters (cell size and wall thickness). The mathematical model was experimentally validated using pilot-scale twin screw extrusion for processing of cereal-based cellular products. Process and product data were measured at different in-barrel moisture contents (19-28% dry basis) and experimental screw speeds (250-330 rpm). Experimental process parameters such as specific mechanical energy (212.8-319.3 kJ/kg), die temperature (120.7-170.6oC), die pressure (3160-7683 kPa) and product characteristics such as expansion ratio (3.29-16.94) and cell size or bubble radius (435-655 microns) compared well with simulated results from the mathematical model viz., specific mechanical energy (217.6-323.9 kJ/kg), die temperature (116.8-176.1oC), die pressure (3478-6404 kPa), expansion ratio (4.56-19.4) and bubble radius (426-728 microns). Experimental variability in product characteristics was quantified using coefficient of variation which compared well with simulation results (example, 2.5-4.9% versus 0.24-3.1% respectively for expansion ratio). The stochastic model was also used to conduct sensitivity analysis for understanding which raw material and process characteristics contribute most to product variability. Sensitivity analysis showed that the water added in extruder affects the magnitude and variability of expansion ratio the most, as compared to screw speed and consistency index.

Extrusion

Stochastic

Modeling

Flow Behaviour

Cell Structure

Engineering (0537)

Food Science (0359)

Tiered Bandwidth Reservation Scheme for Multimedia Sectorized Wireless Networks

Sun, Yu-hang

13 July 2004

Because there has been a rapid development in wireless networks, it is important to provide quality-of-service (QoS) guarantees as they are expected to support multimedia applications. In this paper we propose a new bandwidth reservation scheme based on the characteristic of the cell equipped with sector antenna and 2-tier cell structure. According to this information, the proposed scheme can predict the next location of each connection and precisely reserve bandwidth in appropriate neighboring cells, not all of its neighboring cells. In addition, the proposed scheme incorporates bandwidth borrowing mechanism into call admission control strategy. The combination of bandwidth reservation and bandwidth borrowing provides network users with QoS in terms of guaranteed bandwidth, call blocking and call dropping probabilities.

Call Admission Control

Bandwidth Borrowing

Tiered cell structure

Bandwidth Reservation

Quality of Service

Sector Antenna

Microscopical studies on plant fibre structure /

Khalili, Sadia,

January 1900

Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniv. / Härtill 5 uppsatser.

Molecular Structures and Device Properties of Organic Solar Cells

Mao, Zhenghao

11 June 2014

No description available.

Chemistry

Interação célula-crisotila em duas diferentes linhagens celulares: uma abordagem morfológica e molecular. / Cell-chrysotile interaction in two different cell lines: a morphological and molecular approach.

Ricardi, Luana Ribeiro

12 November 2013

Asbestos é um termo geral usado comercialmente para descrever minerais fibrosos de silicato. A fibra mais utilizada até hoje é denominada crisotila, com uso considerado seguro. Embora, fragmentos menores podem permanecer por longo tempo em tecidos pulmonares. As fibras de crisotila, assim como as demais fibras de asbestos, possuem sílica na sua composição e podem ser fagocitadas com a participação de receptores scavenger. Este trabalho teve como objetivo o estudo de mecanismos de interação e de internalização das pequenas fibras de crisotila em duas linhagens celulares. Uma análise por microscopia confocal de varredura a laser e microscopia eletrônica de transmissão foi realizada e observou-se que ambas as linhagens são capazes de internalizar fibras, que apresentavam livres ou envoltas pela membrana plasmática. A presença de elementos do citoesqueleto próximos às fibras de crisotila foi verificada, assim como alterações no nível de expressão de alguns desses elementos. Dentro deste contexto, a participação de receptores no processo de internalização de fibras de crisotila também foi estudada e verificamos que esses receptores podem estar envolvidos de alguma forma com o processo de internalização de fibras de crisotila. / Asbestos is a term used commercially to describe silicate minerals. Chrysotile is the most used fiber until today and it is considered safe. However, smaller fragments can be found in lung tissues for a long period of time. Chrysotile fibers, as other asbestos fibers, are composed by silica and may be phagocyted with the participation of scavenger receptors. This studys goal was to study the interaction an internalization mechanisms of small chrysotile fibers in two cell lineages. Confocal laser scan microscopy analysis and electronic microscopy transmission analysis were conducted in both lineages, that showed capable of internalize fibers, that were involved or not by cell membrane. Cytoeskeleton elements presence near the fibers was verified and there were also changes in expression levels these elements. In this context, the participation of scavenger receptors in the internalization process of chrysotile fibers was also studied, and we verified that these receptors may be associated to the internalization process of chrysotile fibers.

Asbesto

Asbestos

Cell structure

Cellular receptors

Confocal microscopy

Electron microscopy

Endocitose

Endocytosis

Estrutura celular

Microscopia confocal

Microscopia eletrônica

Receptores celulares

Synthesis Of Acrylic Based High Internal Phase Emulsion Polymers And Their Application In Chromatography

Tunc, Yeliz

01 September 2009

High internal phase emulsion polymers (PolyHIPEs) are new generation materials with their high porosity and interconnected open-cell structures and finds applications in areas such as supports for catalytic systems, separation media and tissue engineering scaffolds. Styrene based PolyHIPEs are currently the most popular choice, but solvent compatibility and poor mechanical properties of these materials prevent their applications. Therefore development of new polyHIPEs with desired mechanical and cellular properties is needed to extend the range of applications. The objective of this thesis was to synthesize new polyHIPEs with different mechanical characteristics changing from ductile to elastomeric. For this purpose, acrylic based polyHIPEs with various cellular structure and mechanical characteristics were developed by using stearyl acrylate (SA), isodecyl acrylate (IDA), isobornyl methacrylate (IBMA) and divinylbenzene (DVB). All materials were highly porous (90%) and had open cellular structure with uniform voids in the range of 5.2-12.9 &amp / #956 / m. The PolyHIPEs produced from the monomers of SA and IDA demonstrated elastomeric property and had high ability of recovery when the applied stress is removed. IBMA based polyHIPEs were ductile and demonstrated higher Young&rsquo / s modulus and compression strength than that of conventional styrene based polyHIPEs. Therefore, by varying the composition, it became possible to alter the mechanical properties of polyHIPEs from ductile to elastomeric, without changing the interconnected cellular structures. One of the prepared IDA based polyHIPE was evaluated as stationary phase for capillary electrochromatography for the first time in literature. The column was very efficient in the separation of alkylbenzenes namely thiourea, benzene, toluene, ethylbenzene, propylbenzene and butylbenzene with high column efficiency (up to 200.000 plates/m).

QD Polymers, Macromolecules 380-388

Bioremediation of Zinc using Pseudomonas Species - Mechanistic Studies and Biosensor Applications

Ebinesar, J S S Allwin

January 2016

The rivers, lakes and seas are the major water sources for the animal and plant kingdom in this earth. In recent times, the usage and wastage of water have been increasing due to the uncontrolled population growth. In addition to that, the rapid industrialization over the years has led to the gradual depletion of the natural resources like water, soil and air. Some of these industries discharge contaminants like organic products and inorganic (or) toxic heavy metals without treatment into the environment, leading to its degradation. Zinc is the 24th most abundant element present in the earth crust, amounting 75 ppm (0.0075%). The concentration of zinc present in the soil and seawater is about 64 ppm and 30 ppb respectively (Emsley, 2001). Generally, the zinc is found with the base metals such as copper and lead and it has less affinity with oxides and strong affinity with sulphides. Sphalerite, a zinc sulphide ore, is majorly containing 60-62% of zinc. The other sources of zinc from the minerals are smithsonite, hemimorphite, quartzite, and hydro zincate. The major sources of zinc contamination arise from several industrial activities such as mining, coal, waste combustion and steel and iron processing. Drinking water also contains certain amounts of Zn, which may be higher when it is stored in metal tanks. The acute toxicity arises from the ingestion of excessive amounts of zinc salts, either accidentally or as dietary supplement. Vomiting, nausea and stomach cramps usually occur after the consumption of more than 500 mg of zinc sulfate. In addition to that, the higher amounts of zinc affect gastrointestinal tract, liver, bone and prostate glands. Finally, Zn can interrupt the activity in soils, as it negatively influences the activity of microorganisms and earthworms, thus retarding the breakdown of organic matter. To combat this problem, techniques such as chemical precipitation, ion exchange, reverse osmosis, etc. are adopted, but these processes result in a huge amount of secondary sludge formation, inefficient removal of metals and are not cost effective. In recent times, an innovative, eco-friendly, cost-effective method has been introduced to treat the toxic heavy metals namely bioremediation. ―Bioremediation‖ is a process of removal of organic or inorganic contaminants by using bacteria, fungi, algae and its metabolites In this research work, the potential of four bacterial strains of the Pseudomonas sp. such as P.putida, P.alcaligenes, P.aeruginosa and P.fluorescens and the extracellular proteins secreted by these four species for the bio-sorption of zinc has been investigated through batch experiments. The mechanisms of interaction between the zinc ion and the bacterial biomass as well as with the extracellular proteins have been elucidated. Additionally, a carbon paste electrode has been modified by using Pseudomonas sp. and its metabolites to develop biosensors for zinc and the lower limit of detection of zinc in aqueous solution has been determined. The major objectives of this research work are specified below: • To study the potential of Pseudomonas sp. such as P.putida, P.alcaligenes, P.aeruginosa and P.fluorescens for the bio sorption of zinc, in batch systems. • To determine the speciation of zinc with respect to pH in the growth medium and the maximum inhibitory effect of zinc on the growth of the four chosen Pseudomonas sp. • To isolate and characterize the extracellular proteins from the four Pseudomonas sp. such as P.putida, P.alcaligenes, P.aeruginosa and P.fluorescens. • To study the biosorption of zinc by extracellular proteins secreted by the Pseudomonas sp. • To elucidate the mechanisms involved in the biosorption of zinc at the microbe- metal interface and protein-metal ion interface for all the four systems by different characterization studies such as zeta potential, FTIR analysis and EDAX analysis. • To develop a biomass modified CPE using bacterial cells and extracellular protein to detect the concentration of zinc in aqueous solutions adopting voltammetric techniques. The significant results obtained from this research work are summarized as follows: The initial studies were concentrated on the bio sorption of zinc by using four Pseudomonas species such as P.putida, P.alcaligenes, P.aeruginosa and P.fluorescens. The various factors affecting the bio sorption of zinc by these species were investigated by varying the contact time (10-80 min), pH (2-5±0.2), biomass concentration of the four species in the range of 108- 1011 cells / mL, and the initial zinc concentration from 5 mg/L to 80 mg/L respectively, keeping other parameters such as temperature and agitation speed constant in all the experiments. From the results obtained, the maximum percentage of biosorption achieved by the P.putida, P.alcaligenes, P.aeruginosa and P.fluorescens was found to be 60%, 93%, 70% and 65% respectively for 25 mg/L at pH 5±0.2. The equilibrium time taken by the four species to achieve maximum biosorption was about 10 min and the biosorption kinetics adhered to pseudo-second order reaction and the rate constants were determined for different concentrations of zinc. The biosorption isotherm followed both the Langmuir and Freundlich isotherm models. The Gibbs free energy (ΔG) values determined from the Langmuir isotherm model for all the four systems were found to be -26, -32, -30 and -28 kJ /mole respectively. The Gibbs free energy values indicate that the biosorption of zinc ions onto the bacterial surface is a chemi-sorption process involving co-ordination, complexation or chelation. The characterization studies, namely zeta potential, FTIR analysis and SEM-EDX were also carried out on the bacterial cells before and after interaction with zinc. These studies also provide evidence in support of the complexation of zinc with the functional groups on the bacterial cell surface apart from electrostatic interaction. In the second part of the investigation, the inhibitory effect of zinc on the growth of four Pseudomonas sp. was investigated by varying the concentration of zinc from 50 mg/L to 1000 mg/L and the stability of zinc was analysed with respect to pH (2-12) with different concentrations from 50 - 1700 mg/L. It was found that in the absence of zinc the time taken to reach the exponential phase and the specific growth were almost the same for all the four systems. However, in the presence of zinc ions, the growth of the four Pseudomonas sp. was suppressed beyond 50mg/L of zinc. A control study on the stability of zinc in Luria broth medium showed that zinc was highly stable up to 200 mg/L from pH 2-8. However, the stability of zinc in the growth medium decreased beyond that concentration Additionally, studies on the biosorption of zinc were performed using extracellular proteins isolated from the four Pseudomonas sp. The amount of protein was estimated by the Bradford protein assay method at 594 nm. The biosorption experiments were carried out by varying the protein concentration from 50 to 1000µg/mL and the zinc concentration from 50-1000 mg/L and keeping other parameters fixed, namely such as pH at 5±0.2, reaction time of 20 min, temperature at 30±0.2 and the speed of rotation of 200 rpm. It was found that the maximum percentage of zinc biosorbed by the proteins isolated from P.putida was found to be 91% at 500µg/mL of protein concentration and from the other three species, it was found to be about 60% of biosorption at the same protein concentration. The biosorption isotherms of zinc for extracellular protein adhered to the Giles H1 type for all the four systems. The maximum amount of zinc biosorbed by the protein isolated from P.putida, P.alcaligenes, P.aeruginosa and P.fluorescens was found to be 35.6, 19,18.3 and 10 mg/µg respectively and the Gibbs free energy values were found to be -32, -22,-22 and -23 kJ/mole. The mechanisms involved in protein-zinc interaction were elucidated using FTIR analysis and EDX analysis. The FTIR analysis revealed, that the zinc ions were complexed with carboxylic and amine functional groups. Further, the potential of P.putida, P.alcaligenes, P.aeruginosa and P.fluorescens and their extracellular proteins of P.putida as biosensors for detecting zinc ions in aqueous solutions, using electrochemical methods such as, Cyclic Voltammetry and Differential pulse anodic stripping voltammetry, was assessed. The developed carbon paste electrode coated by the biomass showed an approximately 3-fold increase in the sensing of Zn2+ ion in comparison with the bare electrode. The lower limit of detection of the biosensor for zinc ions by Cyclic voltammetry was found to be 10-6 M, and in case of DPASV the lower limit of detection was about 10-7M. The lower limit of detection of the protein modified biosensor for zinc ions by cyclic voltammetry was found to be 10-7M and in the case of DPASV method the lower limit of detection was found to be 10-9 M.

Bioremediation

Zinc Bioremediation

Zinc Bioremediation

Toxic Heavy Metals

Bacterial Cell Structure

In-Situ Bioremediation

Ex-Situ Bioremediation

Pseudomonas Species

Materials Engineering