Nanocomposite Nafion And Heteropolyacid Incorporated Mesoporous Catalysts For Dimethyl Ether Synthesis From Methanol

Ciftci, Aysegul

01 August 2009

The need for alternative transportation fuels is rising with the rapid depletion of oil reserves and the simultaneous growth of the world&amp / #8217 / s population. Production of dimethyl ether, a non-petroleum derived attractive fuel-alternate for the future, is a challenging research area. Different routes and various solid-acid catalysts are being developed in order to achieve the most efficient way of synthesizing this potential diesel alternative fuel. The focus of heterogeneous catalysis is to convert renewable feed stocks to valuable chemicals. Nafion resin and heteropolyacid compounds are active acidic catalysts with significantly low surface areas, which act as a strong barrier limiting their catalytic activity. Synthesizing solid-acid catalysts by incorporation of nonporous active compounds into mesoporous silicate structured materials opens a door to producing valuable chemicals by heterogeneous catalysis. The objective of this work was to synthesize and characterize nafion and heteropolyacid incorporated nanocomposite catalysts and to catalyze DME synthesis by dehydration of methanol at different temperatures. The interactions of methanol and DME with these catalysts were also investigated by in situ FT-IR. Silicotungstic acid (STA)/Silica and Tungstophosphoric acid (TPA)/Silica catalysts were synthesized by following a one-pot hydrothermal route. These mesoporous catalysts had surface area values of 143-252 m2/g. The STA/SiO2 nanocomposite catalyst having a W/Si atomic ratio of 0.33 showed the highest activity, with a DME selectivity approaching to 100% and a methanol conversion of 60% at 250&deg / C at a space time of 0.27 s.g.cm-3. Effects of W/Si atomic ratio and the synthesis procedure on the performance of these novel materials were investigated. Nanocomposite Nafion/SiO2 solid-acid catalysts having high surface area values (595-792 m2/g) and narrow pore size distributions (4.3 nm) were successfully synthesized by a one-pot hydrothermal procedure. Effects of the modifications in the synthesis procedure concerning the surfactant removal, nafion loading, etc. were investigated based on the characterization results and activity tests. Nafion was observed to be uniformly distributed within these mesoporous catalysts. Nafion resin was also impregnated into aluminosilicate and &amp / #945 / -alumina, but one-pot synthesis was concluded to be better for obtaining well dispersed, nafion incorporated active catalysts. The Nafion/Silica catalyst synthesized by a nafion/silica weight ratio of 0.15 and washed with 2M sulfuric acid-ethanol solution exhibited the highest activity due to its highest Br&ouml / nsted, as well as Lewis acidity. A methanol conversion of 40% at 300&deg / C, 0.27 s.g.cm-3 and DME selectivity values approaching to 100% over 180&deg / C were very promising for the synthesis of this green fuel alternate over the new catalysts synthesized.

QD Chemistry 1-999

Dimethyl Ether (dme) Synthesis Using Mesoporous Sapo-34 Like Catalytic Materials

Demir, Hakan

01 August 2011

In 21st century, researchers make great effort of finding a clean transportation fuel to diminish the severe effects of conventional transportation fuel combustion such as global warming and air pollution. Dimethyl ether is considered as a strong fuel alternative due to its good burning characteristics and environmentally friendly properties. In order to produce dimethyl ether, different synthesis routes and solid acid catalysts are being utilized. SAPO-34 is an aluminophosphate based catalyst having moderate acidity. This property makes it a good candidate for the synthesis of dimethyl ether. However, SAPO-34 has microporous structure causing diffusion limitations. The objective of this study is to synthesize, characterize mesoporous SAPO-34 like catalytic materials and test the activity of them in methanol dehydration reaction. The benefit of obtaining mesoporous structure is that the diffusion limitations can be eliminated. Mesoporous SAPO-34 like catalysts were synthesized through hydrothermal synthesis route. BET surface areas of these catalysts were 117-133 m2/g. All methanol dehydration reactions were carried out at a space time of 0.14 s.g/cm3. By using mesoporous SAPO-34 like catalysts, the highest methanol conversion was 48% obtained at 550&deg / C with DME selectivity and yield values of 1 and 0.49, respectively. Since utilizing microporous SAPO-34 catalyst gave higher methanol conversion, 67%, at lower temperature, 250&deg / C, with dimethyl ether selectivity of around 1, mesoporous SAPO-34 like catalysts are not suitable for this reaction.

TP Chemical Engineering 155-156

Zr And Silicotungstic Acid Incorporated Silicate Structured Mesoporous Catalysts For Dimethyl Ether Synthesis

Orman, Sultan

01 August 2011

Due to high consumption rates of petroleum derived fuels and environmental regulations, significant search has been initiated for the development of environmental friendly and efficient fuels, which were derived from more abundant feedstocks. Dimethyl ether (DME), as having a good combustion quality and high cetane number, is an efficient alternative for diesel fuel. With improved combustion quality, the emissions from DME used engines are greatly decreased. DME synthesis can be carried out via two different methods / methanol dehydration on acidic catalysis and syn-gas conversion on bifunctional catalysis. In this study, the aim is to synthesize acidic catalysts using direct hydrothermal synthesis method for DME synthesis as using methanol as feed stock via dehydration and to characterize these materials. The support of the synthesized materials comprises of MCM-41 structure and silicotungstic acid (STA) and metals (Zr / Ni / Cu) were incorporated into the MCM-41 structure during synthesis. Two different techniques were used to extract the surfactant (CTMABr) from catalyst matrix. First one is the conventional calcination technique (at 350&deg / C) and the second is supercritical fluid extraction (at various operating conditions) with methanol modified CO2. The effect of metal loading on extraction performance is analyzed through characterizations of Ni and Cu incorporated materials. In addition, The effect of operation parameters on catalyst properties are also investigated with performing extraction at different pressures for different durations. By changing the type of metal incorporated into the catalyst, the extraction performance is also monitored. The characterization results indicated that, SFE process is also a promising method for surfactant removal. The activities of zirconium added catalysts are tested in methanol dehydration reaction towards DME. It is concluded that the conversion of methanol and selectivity of DME in presence of extracted samples are lower (maximum yield -0.54- obtained at 450&deg / C with sceSZ1) compared to the calcined materials (maximum yield -0.80- obtained at 300&deg / C with cSZ6). This result can also be foreseen by DRIFTS analysis of pyridine adsorbed samples. The acid sites of extracted materials are not as strong as in the calcined catalysts.

TP Chemical Engineering 155-156

The Physiological Effects of Hockey Protective Equipment on High Intensity Intermittent Exercise

Noonan, Benjamin Carter

15 November 2006

Ice hockey is a contact sport played in a cold environment which leads to assumptions that players are not exposed to a thermal challenge. The purpose of this study was to test the hypothesis that the wearing of hockey protective equipment during an exercise protocol designed to simulate a hockey game would induce a thermal challenge and lead to decrements in performance. In order to test this hypothesis and qualify the physiological responses, subjects performed a standardized protocol performed on a stationary cycle ergometer in an environmental chamber set at typical (12ºC) ice hockey ambient conditions. The simulation was performed twice; once while wearing cotton undergarments only (NP), and once while wearing cotton undergarments and the typical protective equipment worn during a hockey game (P). Work intensity during each trial was held constant and was evaluated by examining mean power output, which was similar under both P and NP conditions (348.2 W vs 352.08 W, P > 0.05) P vs NP, respectively. Body (37.18 ºC vs 36.58 ºC) and skin temperatures (34.12 ºC vs 28.85 ºC) were elevated in P vs NP, respectively (P<0.05). Core temperatures (37.50 ºC vs 37.41ºC) displayed a trend towards being higher in P vs NP particularly during the third period of simulation (P = 0.053). Sweat loss as a percent of body mass was greater in P vs NP (2.57% vs 1.18%, respectively P<0.05), which led to an increase in plasma osmolality (287 vs 283 mosmol/kg H2O, respectively P<0.05) working heart rate (83.7% vs 78.8% of maximum heart rate), resting heart rate (63.4% and 55.9% of maximum heart rate), and urine specific gravity (1.026 vs 1.017) for P vs NP respectively (each P<0.05). The drop-off in power from pre to post simulated game was examined in both conditions by the use of five repeated maximal six second sprints interspersed with 24 seconds of recovery. The drop-off in both peak (12.0% vs 0.2%) and mean power (14.5% vs 2.7%) was greater in P versus NP (P<0.05). Plasma lactate concentration was higher following the simulated game in P vs NP (9.64 vs 5.96 mmol/L, P<0.05) as was plasma norepinephrine (2274.0 vs 1366.9 pg/ml, P<0.05). Rating of Perceived Exertion increased by 30-53% in the P condition (P<0.05) even though power outputs were equivalent. The elevated body temperature and increased water loss appeared to increase glycolytic flux, which when coupled with the consequences of thermal stress, reduced power output and led to the perception of elevated work intensities during the simulated game.

thermal hyperesthesia

sports equipment

ice hockey

exercise tolerance

body temperature

dehydration

Utvärdering av ett kortare dehydreringsprogram för stansbiopsier från human hud och portio : Har storleken betydelse? / Evaluation of a shorter dehydration program for skin and portio biopsies - Does size matter?

Elofsson, Jonathan, Wetter, Ida

January 2015

På histopatologiska laboratoriet vid Länssjukhuset Ryhov i Jönköping är dehydreringsprocessen i dagsläget förlagd över natt. För upprätthållande av god kvalitet på diagnos med förbättrat provflöde och utnyttjande av instrumentens fulla kapacitet önskas att ett kortare dehydreringsprogram implementeras och förläggs dagtid. Syftet med denna studie var således att utvärdera ett kortare dehydreringsprogram för stansbiopsier från human hud och portio. Detta har gjorts utifrån cellmorfologiska bedömningsgrunder och bedömning av färgkvalité av rutinfärgning med Hematoxylin och Eosin samt specialfärgningarna polykrommetylenblått enligt Unna, Periodic acid-Schiff och Giemsa. Ett material om 87 biopsier från human hud samt portio dehydrerades fördelat över gällande rutinprogram samt utvärderat kortprogram. Preparaten bedömdes sedan utifrån snittbarhet, morfologisk kvalité samt färgbarhet och diagnostiserbarhet. Resultatet av undersökningen visade att mindre stansbiopsier från kortprogrammet varit enkla att snitta samt att dessa erhållit genomgående goda resultat från övriga bedömningar. Däremot var de större biopsierna mer svårsnittade samt uppvisade fler dehydreringsartefakter när dessa dehydrerats i kortprogram. Sammantaget konstaterades att det korta dehydreringsprogrammet skulle kunna implementeras för mindre stansbiopsier från hud och portio på histopatologiska laboratoriet vid Länssjukhuset Ryhov i Jönköping. / At the histopathological laboratory at Ryhov County Hospital in Jönköping the dehydration process is currently scheduled during nights. To maintain good diagnostic quality with improved sample flow and use of the instruments full capacity an implementation of a shorter dehydration program scheduled during daytime was needed. The purpose was thus to evaluate a shorter dehydration program for punch biopsies of human skin and portio. The evaluation was based on ratings of cellular morphology and quality of routine staining with Hematoxylin and Eosin as well as special staining with polychrome methylene blue according to Unna, Periodic acid-Schiff and Giemsa. A material containing 87 biopsies was dehydrated distributed between current routine program and the evaluated shorter program. The specimens were rated on the basis of ability to section, morphological and staining quality along with diagnostic ability. The results of the survey showed that smaller punch biopsies run in the shorter dehydration program were easy to section and received good results in general. In contrast, larger biopsies were more difficult to section and showed more dehydration artefacts when dehydrated in the shorter program. Altogether it was concluded that the short dehydration program could be implemented for smaller punch biopsies from skin and portio at the histopathological laboratory at Ryhov County Hospital in Jönköping.

Dehydration

punch biopsy

histotechnical process

staining

cellular morphology

Dehydrering

stansbiopsi

histoteknisk process

färgning

cellmorfologi

Effects of mild dehydration on thermoregulation, performance and mental fatigue during an ice hockey scrimmage

Linseman, Mark Edward

13 September 2011

This study investigated the effects of progressive dehydration by 1.5-2.0% body mass (BM) (NF) on core temperature (Tc), heart rate (HR), on-ice performance, and mental fatigue during a 70-min scrimmage, compared to maintaining BM with a carbohydrate-electrolyte solution (CES). Compared to CES, Tc was significantly higher throughout the scrimmage in NF. Players in NF had reduced mean skating speed and time at high effort between 30-50 min of the scrimmage. Players in NF committed more puck turnovers and completed a lower percentage of passes in the last 20 min of play. Post-scrimmage shuttle skating time was higher in NF. Hockey fatigue questionnaire total score and Profile of Mood States fatigue score was higher in NF. The results indicate that mild dehydration compared to maintaining BM with a CES resulted in increased Tc, decreased skating and puck handling performance, and increased mental fatigue during an ice hockey scrimmage. / Gatorade Sports Science Institute, Natural Sciences and Engineering Research Council of Canada

Hockey

Thermoregulation

Dehydration

Sports drink

Carbohydrate

Performance

Ice hockey

Mental

Fatigue

Core temperature

Response of Day 8 Equine Embryos to Saccharide Solutions at Various Temperatures

Foster, Brittany

02 January 2013

The response of Day Eight equine embryos to saccharide solutions was investigated as a first step in their potential use as non-permeating cryoprotective agents. Embryos were exposured to seven increasing concentrations of either sucrose or galactose at a temperature of 22°, 30° or 37°C. Each embryo was then rehydrated by exposing it to the same solutions in reverse. Embryos underwent osmotic dehydration, independent of treatment group, but embryo size had a significant effect on the response pattern. Embryos < 500µm dehydrated osmotically to 20% of their original volume. Those > 500µm exhibited a delayed response and only dehydrated to 40% of their original volume. When placed into decreasing concentrations, embryos partially rehydrated. Pre- and post-treatment embryo quality was compared and embryos were stained to determine the amount of apoptosis, with no difference in embryo survival between treatments. Results indicate that saccharides show promise for use in equine embryos < 500µm. / Ontario Veterinary College, Equine Guelph, Partnar Animal Health

Horse

Equine

Reproduction

Reproductive Technology

Cryopreservation

Non-permeating cryoprotecant

Osmotic Response

Dehydration

Saccharides

Temperature effect

Effects of geometric and material property changes on the apparent elastic properties of cancellous bone

LIEVERS, WILLIAM BRENT

24 April 2009

Osteoporosis is a disease characterized by reduced bone mass and reduced bone quality. This deterioration manifests itself in osteoporotic fractures at skeletal sites containing large proportions of cancellous bone (ie. forearm, hip, spine). Given the costs associated with these fractures, improvements in our ability to model and predict the behaviour of cancellous bone would be of great financial and social benefit to society. This thesis makes contributions in three areas within the much larger goal of developing a comprehensive model for describing the mechanical behaviour of cancellous bone. Since the accuracy of model predictions can only be as good as the test data against which it is compared, the effect of experimental artifacts introduced by specimen geometry is examined for cored samples. The apparent elastic modulus of cancellous bone is found to be relatively insensitive to specimen (or gauge) length, such that it can be reduced below the recommended 2:1 aspect ratio without introducing detectable artifact. Conversely, apparent modulus is found to be much more sensitive to specimen diameter. The role of water is also examined. Dehydration at room temperature was found to increase the apparent elastic modulus by roughly 14%. This net increase results from the competing effects of an increased tissue modulus and a decreased bone volume fraction due to shrinkage. Finally, preliminary work is presented which attempts to relate micro-CT voxel intensity and locally measured nanoindentation moduli, in order to provide an experimental basis for assigning heterogeneous material properties to finite element method (FEM) models. / Thesis (Ph.D, Mechanical and Materials Engineering) -- Queen's University, 2009-04-24 14:28:17.772

cancellous bone

elastic modulus

specimen dimensions

dehydration

finite element method (FEM)

nanoindentation

micro-CT

Magnetotelluric constraints on the role of fluids in convergent plate boundaries

Rippe, Dennis

Unknown Date

No description available.

Canadian Cordillera

Tibetan Plateau

Subduction zone

Continent-continent collision

Magnetotellurics

Rheology

Dehydration melting

Channel flow

Dehydration in Southern Toads (Anaxyrus terrestris): Metabolic Costs and Effects of Temperature Selection

Forster, Claire E

01 January 2013

Southern toads (Anaxyrus terrestris) are ectothermic terrestrial amphibians. As such they are sensitive to thermal and hydric variability. The interactive effect of hydration state and body temperature is not well understood. The aim of this study is to determine if the costs of dehydration vary at different temperatures and if so, whether toads will select different temperatures to minimize these costs. Costs of dehydration were evaluated by measuring metabolic rate at 100% and 85% hydration state, at 30 and 20 oC. Temperature selection of toads at 100% and 85% hydration state was measured using a thermal gradient. Body temperature, but not hydration state, was determined to have a significant effect on metabolic rate. No significant difference in temperature selection was found between toads at 100% and 85% hydration state. Thus, thermoregulatory behavior as influenced by hydration state could not be predicted in Anaxyrus terrestris.

southern toads

anaxyrus terrestris

dehydration

body temperature

temperature selection

metabolic rate

Biology