Search

Your search keyword '"Nancarrow Paul"' showing total 92 results
Start Over Author "Nancarrow Paul"
92 results on '"Nancarrow Paul"'

55. PHYSICAL THERAPY ALONE COMPARED WITH CORE DECOMPRESSION AND PHYSICAL THERAPY FOR FEMORAL HEAD OSTEONECROSIS IN SICKLE CELL DISEASE: RESULTS OF A MULTICENTER STUDY AT A MEAN OF THREE YEARS AFTER TREATMENT

Author

NEUMAYR, LYNNE D., AGUILAR, CHRISTINE, EARLES, ANN N., JERGESEN, HARRY E., HABERKERN, CHARLES M., KAMMEN, BAMIDELE F., NANCARROW, PAUL A., PADUA, ERIC, MILET, MEREDITH, STULBERG, BERNARD N., WILLIAMS, ROGER A., ORRINGER, EUGENE P., GRABER, NORA, ROBERTSON, SHANDA M., and VICHINSKY, ELLIOTT P.

Published
2006

56. Wisdom's information: rereading a biblical image in the light of some contemporary science and speculation

Author

Nancarrow, Paul S.

Subjects
Wisdom -- Analysis, Algorithms -- Analysis, Information theory -- Analysis, Nature -- Analysis, Philosophy and religion, Science and technology
Abstract

The biblical image of Wisdom as the power who 'orders all things well' in nature and in human life can be read in the light of contemporary information theory. Some current scientific speculation offers an interpretation of reality as a vast information-processing system, in which informational situations are continuously transformed through algorithmic operations. This interpretation finds a metaphysical counterpart in the distinction between 'nature natured' and 'nature naturing' in the philosophical theology of Samuel Taylor Coleridge. This confluence of religious, metaphysical, and scientific imagery suggests a picture of the world in which the processes of 'nature naturing,' 'human humaning,' and 'God Godding' inform and recur in each other. Keywords: algorithm; Samuel Taylor Coleridge; information; natura naturans; nature; Wisdom.

Published
1997

57. Thermal Conductivities of Choline Chloride-Based Deep Eutectic Solvents and Their Mixtures with Water: Measurement and Estimation

Author

Ibrahim, Taleb, Sabri, Muhammad Ashraf, Abdel-Jabbar, Nabil, Nancarrow, Paul, Mjalli, Farouq Sabri, AlNashef, Inas, Ibrahim, Taleb, Sabri, Muhammad Ashraf, Abdel-Jabbar, Nabil, Nancarrow, Paul, Mjalli, Farouq Sabri, and AlNashef, Inas

Abstract

The thermal conductivities of selected deep eutectic solvents (DESs) were determined using the modified transient plane source (MTPS) method over the temperature range from 295 K to 363 K at atmospheric pressure. The results were found to range from 0.198 W·m⁻¹·K⁻¹ to 0.250 W·m⁻¹·K⁻¹. Various empirical and thermodynamic correlations present in literature, including the group contribution method and mixing correlations, were used to model the thermal conductivities of these DES at different temperatures. The predictions of these correlations were compared and consolidated with the reported experimental values. In addition, the thermal conductivities of DES mixtures with water over a wide range of compositions at 298 K and atmospheric pressure were measured. The standard uncertainty in thermal conductivity was estimated to be less than ± 0.001 W·m⁻¹·K⁻¹ and ± 0.05 K in temperature. The results indicated that DES have significant potential for use as heat transfer fluids.

Published
2020

60. Urinary tract infections in children: an update

Author

Zelikovic, Israel, Adelman, Raymond D., and Nancarrow, Paul A.

Subjects
Care and treatment, Pediatric diseases -- Care and treatment, Urinary tract infections -- Care and treatment, Children -- Diseases, Urinary tract infections in children -- Care and treatment
Abstract

Urinary tract infection is a common and frequently recurring condition in children. The susceptibility of the host, the presence of urinary tract abnormalities, and the virulence of the urinary pathogens [...]

Published
1992

61. Use of Ultrasound and Ionic Liquids to Enhance the Extractive Desulfurization of Oils

Author

Nancarrow, Paul, Ahmed, Hussain, Zuraiqi, Karma, Nancarrow, Paul, Ahmed, Hussain, and Zuraiqi, Karma

Abstract

A Master of Science thesis in Chemical Engineering by Karma Zuraiqi entitled, "Use of Ultrasound and Ionic Liquids to Enhance the Extractive Desulfurization of Oils," submitted in December 2016. Thesis advisor is Dr. Paul Nancarrow and thesis co-advisor Dr. Hussain Ahmed. Soft and hard copy available., Desulfurization of diesel oil has been a widely investigated process, due to the detrimental impact on health and the environment caused by sulfur dioxide emissions resulting from the combustion of diesel oil. This has recently impelled many governments to reduce the maximum sulfur content of diesel to 10 ppm. The current desulfurization technology, hydrodesulfurization (HDS), is energy intensive, uses large quantities of hydrogen, and is ineffective at removing some sulfur compounds. The need for cost effective desulfurization methods to achieve this tighter specification gave rise to the study of replacement methods. In laboratory scale equilibrium studies, the use of ionic liquids (ILs) within the context of liquid-liquid extraction (LLE) has been demonstrated to be a viable, low energy, substitute to HDS. However, mass transfer limitations and scale-up issues have not previously been investigated. Since ILs suffer from high viscosities, which reduces the rate of interphase mass transfer, this would require more separation stages and larger processing equipment. Recently, the effect of ultrasound (US) on mass transfer has been investigated to establish whether it can be used to enhance mass transfer in industrial processes. This work aims to study the process development issues associated with extractive desulfurization of diesel using ILs: interphase mass transfer, phase dispersion and settling behavior, and IL regeneration. The impact of US irradiation on each of these process steps is investigated. The study involved the use of model diesel, in which hexadecane was used along with dibenzothiophene (DBT) as the model sulfur compound. The extraction solvent used was 1-ethyl-3-methylimidazolium acetate ([C2mim][CH3COO]) IL. This study has shown that sonification can greatly enhance the rate of mass transfer of DBT from diesel to the IL, resulting in a 57% sulfur removal for a 75% decrease in extraction time, and leading to a reduction in the number of extraction, College of Engineering, Department of Chemical Engineering

Published
2017

62. Zirconium Phosphate/Ionic Liquid Proton Conductors for High Temperature Fuel Cell Applications

Author

Al-Othman, Amani, Nancarrow, Paul, Mohammed, Hanin, Al-Othman, Amani, Nancarrow, Paul, and Mohammed, Hanin

Abstract

A Master of Science thesis in Chemical Engineering by Hanin Mohammed entitled, "Zirconium Phosphate/Ionic Liquid Proton Conductors for High Temperature Fuel Cell Applications," submitted in November 2017. Thesis advisor is Dr. Amani Al-Othman and thesis co-advisor is Dr. Paul Nancarrow. Soft and hard copy available., High temperature operation (  120 °C) is preferred in proton exchange membrane (PEM) fuel cells. It enhances the electrode kinetics, improves the catalyst tolerance for impurities and allows the use of lower cost fuels such as hydrocarbons. However, high temperature operation is not possible using the conventional Nafion membranes. Their proton conductivity decreases dramatically beyond 90 °C. Therefore, this work aimed at developing Nafion-free proton conducting material, based on zirconium phosphates (ZrP) and ionic liquids (IL) to allow a high temperate operation. ZrP/IL proton conducting materials were prepared via the reaction of zirconium oxychloride ZrOCl2 in an aqueous solution with phosphoric acid H3PO4 at room temperature. Seven different ionic liquids, were investigated in this work. The ionic liquid component was added to the ZrOCl2 solution prior to the precipitation reaction with IL contents ranging from 0.4-5% by mass. The modified materials were investigated for their proton conductivity. The results of this work demonstrated that the addition of ionic liquids enhances the proton conductivity of the ZrP material by orders of magnitude. Among all the tested ionic liquids, 1-ethyl-3-methylimidazolium ethyl sulfate, 1-butyl-3-methylimidazolium dicyanamide, and 1-butyl-3-methylimidazolium triflate produced the best results with conductivities of 2.2610-2, 1.6110-2 and 1.3610-2 S cm-1, respectively. The proton conductivity of the unmodified ZrP prepared in this work was equal to 9.2410-4 S cm-1. The modified samples were analyzed by thermogravimetric analysis (TGA), X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), Raman spectroscopy and scanning electron microscopy (SEM). Results showed the enhancement of water uptake properties by 40-60%, changes in morphology and changes in structure upon the introduction of the IL component. The modified samples were processed at high temperature (200 oC) under completely anhydrous conditio, College of Engineering, Department of Chemical Engineering

Published
2017

67. Prediction of gas solubility in ionic liquids using COSMOtherm

Author

Rooney, David, Hardacre, Chris, Nancarrow, Paul, Jacquemin, Johan, Manan, Norfaizah, Costa Gomes, Margarida F, Padua, Agilio A. H., The QUILL Centre (QUILL), Queen's University [Belfast] (QUB), Thermodynamique des solutions et des polymères (TSP), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Centre National de la Recherche Scientifique (CNRS), Costa Gomes, Margarida, Department of Organic Chemistry, University of Bucharest (UniBuc), and Padua, Agilio

Subjects
[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry, [CHIM.THEO] Chemical Sciences/Theoretical and/or physical chemistry, stomatognathic diseases, health care facilities, manpower, and services, education, ComputingMilieux_MISCELLANEOUS, health care economics and organizations
Abstract

oral presentation; International audience

Published
2008

68. A group-contribution model to predict volumetric properties of ionic liquids as a function of temperature and pressure

Author

Padua, Agilio A. H., Costa Gomes, Margarida F, Hardacre, Chris, Husson, Pascale, Jacquemin, Johan, Ge, R., Nancarrow, Paul, Thermodynamique des solutions et des polymères (TSP), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Centre National de la Recherche Scientifique (CNRS), Department of Organic Chemistry, University of Bucharest (UniBuc), Costa Gomes, Margarida, The QUILL Centre (QUILL), Queen's University [Belfast] (QUB), and Padua, Agilio

Subjects
[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry, [CHIM.THEO] Chemical Sciences/Theoretical and/or physical chemistry, ComputingMethodologies_GENERAL
Abstract

poster

Published
2008

75. Vibrational assignments, conformational analysis, and molecular structures of $$\left[ {\text{C}_{\text{n}} \text{mim}} \right]\left[ {\text{NTF}_{\text{2}} } \right]$$ CnmimNTF2 (n= 2, 4, 6, and 8) imidazolium-based ionic liquids: a combined experimental and quantum chemical approach

Author

Azizi-Toupkanloo, Hossein, Tayyari, Sayyed, and Nancarrow, Paul

Abstract

This work is aimed at providing physical insights about the interactions of cations, anion, and ion pairs of four imidazolium-based ionic liquids of $$\left[ {{\text{C}}_{\text{n}} {\text{mim}}} \right]\left[ {{\text{NTF}}_{2} } \right]$$ CnmimNTF2 with varying alkyl chain lengths (n= 2, 4, 6, and 8) using both DFT calculations and vibrational spectroscopic measurements (IR absorption and Raman scattering) in the mid- and far regions. The calculated Mulliken charge distributions of $$\left[ {{\text{C}}_{\text{n}} {\text{mim}}} \right]\left[ {{\text{NTF}}_{2} } \right]$$ CnmimNTF2 ion pairs indicate that hydrogen-bonding interactions between oxygen and nitrogen atoms (more negative charge) on $$\left[ {{\text{NTF}}_{2} } \right]^{ - }$$ NTF2- anion and the hydrogen atoms (more positive charge) on the imidazolium ring play a dominating role in the formation of ion pair. Thirteen stable conformers of $$\left[ {{\text{C}}_{2} {\text{mim}}} \right]\left[ {{\text{NTF}}_{2} } \right]$$ C2mimNTF2 were optimized. According to our results, the strongest and weakest hydrogen bonds were existing in $$\left[ {{\text{C}}_{2} {\text{mim}}} \right]\left[ {{\text{NTF}}_{2} } \right]$$ C2mimNTF2 and $$\left[ {{\text{C}}_{8} {\text{mim}}} \right]\left[ {{\text{NTF}}_{2} } \right]$$ C8mimNTF2 , respectively. A redshift of 290, 262, 258, and 257 cm−1has been observed for cations involving $$\left[ {{\text{C}}_{2} {\text{mim}}} \right]^{ + }$$ C2mim+ , $$\left[ {{\text{C}}_{4} {\text{mim}}} \right]^{ + }$$ C4mim+ ,$$\left[ {{\text{C}}_{6} {\text{mim}}} \right]^{ + }$$ C6mim+ , and stretching vibrations of $${\text{C}}12{-}{\text{H}}3$$ C12-H3 , respectively. By increasing the chain length, the strength of hydrogen bonds decreases as a result of $${\text{C}}12{-}{\text{H}}3$$ C12-H3 bond elongation and less changes are observed in stretching vibrations of $${\text{C}}12{-}{\text{H}}3$$ C12-H3 compared to the free cations. To the best of our knowledge, this research is the first work which reports the far-IR of $$\left[ {{\text{C}}_{4} {\text{mim}}} \right]\left[ {{\text{NTF}}_{2} } \right]$$ C4mimNTF2 , $$\left[ {{\text{C}}_{6} {\text{mim}}} \right]\left[ {{\text{NTF}}_{2} } \right]$$ C6mimNTF2 , and $$\left[ {{\text{C}}_{8} {\text{mim}}} \right]\left[ {{\text{NTF}}_{2} } \right]$$ C8mimNTF2 and the mid-IR of $$\left[ {{\text{C}}_{8} {\text{mim}}} \right]\left[ {{\text{NTF}}_{2} } \right]$$ C8mimNTF2 .

Published
2017
Full Text
View/download PDF

83. Technical Evaluation of Ionic Liquid-Extractive Processingof Ultra Low Sulfur DieselFuel.

Author

Nancarrow, Paul, Mustafa, Nadia, Shahid, Ammara, Varughese, Vandhana, Zaffar, Umaimah, Ahmed, Rania, Akther, Nawshad, Ahmed, Hussain, Al Zubaidy, Isam, Hasan, Salma, Elsayed, Yehya, and Sara, Ziad

Subjects
*IONIC liquids, *SULFUR, *DIESEL fuels, *CHEMICAL reduction, *DESULFURIZATION, *SOLVENTS
Abstract

Recenttrends in legislation across the world are aimed towardthe reduction of the levels of sulfur in fuel oils to less than 10ppm (ultra low sulfur diesel, ULSD) due to its toxic and environmentaleffects. Hydrodesulfurization (HDS) is the current method used fordesulfurization and faces technical challenges, due to the extremeconditions and energy consumption necessary to reach low sulfur levels.Recently, ionic liquid (IL) technology has been proposed as a possiblesolution toward achieving ULSD. ILs represent a new class of “green”solvents that are gaining popularity due to their favorable propertiesand have recently been shown to be effective extractants for desulfurizationon a laboratory scale. In this work, the feasibility of industrialscale IL-extractive processing of ULSD has been examined via the simulationand optimization of a conceptual process in ASPEN Plus. The widelyused [Cnmim] [NTF2] series of ionic liquidshave been employed, due to their favorable properties and the availabilityof experimental data in literature. User-defined ionic liquid componentshave been created within ASPEN Plus, incorporating several thermodynamicand physical property parameters derived from literature, to allowthe process to be simulated via the UNIFAC thermodynamic method. Onthe basis of the technical analysis, it is proposed that the mostfeasible process configuration consists of HDS as a preliminary treatment,followed by IL extraction as intermediate treatment to reduce thesulfur content to 50 ppm, with adsorption as the final treatment toachieve ULSD levels. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

86. Pyrrolidinium Containing Ionic Liquid Electrolytes for Li-Based Batteries.

Author

McGrath, Louise M., Rohan, James F., and Nancarrow, Paul

Subjects
NANOSTRUCTURED materials, ELECTROLYTES, IONIC liquids, ENERGY storage, POLYELECTROLYTES, POLYMER colloids
Abstract

Ionic liquids are potential alternative electrolytes to the more conventional solid-state options under investigation for future energy storage solutions. This review addresses the utilization of IL electrolytes in energy storage devices, particularly pyrrolidinium-based ILs. These ILs offer favorable properties, such as high ionic conductivity and the potential for high power drain, low volatility and wide electrochemical stability windows (ESW). The cation/anion combination utilized significantly influences their physical and electrochemical properties, therefore a thorough discussion of different combinations is outlined. Compatibility with a wide array of cathode and anode materials such as LFP, V2O5, Ge and Sn is exhibited, whereby thin-films and nanostructured materials are investigated for micro energy applications. Polymer gel electrolytes suitable for layer-by-layer fabrication are discussed for the various pyrrolidinium cations, and their compatibility with electrode materials assessed. Recent advancements regarding the modification of typical cations such a 1-butyl-1-methylpyrrolidinium, to produce ether-functionalized or symmetrical cations is discussed. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

87. Comparison of Electropolishing of Aluminum in a Deep Eutectic Medium and Acidic Electrolyte.

Author

Abdel-Fattah, Tarek M., Loftis, J. Derek, and Nancarrow, Paul

Subjects
GRINDING & polishing, ELECTROLYTIC polishing, EUTECTICS, LIQUID aluminum, ATOMIC force microscopy, SURFACE conductivity, SURFACE roughness
Abstract

Research advances in electropolishing, with respect to the field of metalworking, have afforded significant improvements in the surface roughness and conductivity properties of aluminum polished surfaces in ways that machine polishing and simple chemical polishing cannot. The effects of a deep eutectic medium as an acid-free electrolyte were tested to determine the potential energy thresholds during electropolishing treatments based upon temperature, experiment duration, current, and voltage. Using voltammetry and chronoamperometry tests during electropolishing to supplement representative recordings via atomic force microscopy (AFM), surface morphology comparisons were performed regarding the electropolishing efficiency of phosphoric acid and acid-free ionic liquid treatments for aluminum. This eco-friendly solution produced polished surfaces superior to those surfaces treated with industry standard acid electrochemistry treatments of 1 M phosphoric acid. The roughness average of the as-received sample became 6.11 times smoother, improving from 159 nm to 26 nm when electropolished with the deep eutectic solvent. This result was accompanied by a mass loss of 0.039 g and a 7.2 µm change in step height along the edge of the electropolishing interface, whereas the acid treatment resulted in a slight improvement in surface roughness, becoming 1.63 times smoother with an average post-electropolishing roughness of 97.7 nm, yielding a mass loss of 0.0458 g and a step height of 8.1 µm. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

88. Application of Ionic Liquids for Chemical Demulsification: A Review.

Author

Hassanshahi, Nahid, Hu, Guangji, Li, Jianbing, and Nancarrow, Paul

Subjects
IONIC liquids, DEMULSIFICATION, VISCOSITY, VAPOR pressure, CHEMICAL systems
Abstract

In recent years, ionic liquids have received increasing interests as an effective demulsifier due to their characteristics of non-flammability, thermal stability, recyclability, and low vapor pressure. In this study, emulsion formation and types, chemical demulsification system, the application of ionic liquids as a chemical demulsifier, and key factors affecting their performance were comprehensively reviewed. Future challenges and opportunities of ionic liquids application for chemical demulsification were also discussed. The review indicted that the demulsification performance was affected by the type, molecular weight, and concentration of ionic liquids. Moreover, other factors, including the salinity of aqueous phase, temperature, and oil types, could affect the demulsification process. It can be concluded that ionic liquids can be used as a suitable substitute for commercial demulsifiers, but future efforts should be required to develop non-toxic and less expensive ionic liquids with low viscosity, and the demulsification efficiency could be improved through the application of ionic liquids with other methods such as organic solvents. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

89. Key Applications and Potential Limitations of Ionic Liquid Membranes in the Gas Separation Process of CO2, CH4, N2, H2 or Mixtures of These Gases from Various Gas Streams.

Author

Elhenawy, Salma, Khraisheh, Majeda, AlMomani, Fares, Hassan, Mohamed, Nancarrow, Paul, and Łukasik, Rafał

Subjects
LIQUID membranes, MEMBRANE separation, IONIC liquids, GAS mixtures, SEPARATION of gases, GREENHOUSE gases, CARBON dioxide, CHEMICAL-looping combustion
Abstract

Heightened levels of carbon dioxide (CO2) and other greenhouse gases (GHGs) have prompted research into techniques for their capture and separation, including membrane separation, chemical looping, and cryogenic distillation. Ionic liquids, due to their negligible vapour pressure, thermal stability, and broad electrochemical stability have expanded their application in gas separations. This work provides an overview of the recent developments and applications of ionic liquid membranes (ILMs) for gas separation by focusing on the separation of carbon dioxide (CO2), methane (CH4), nitrogen (N2), hydrogen (H2), or mixtures of these gases from various gas streams. The three general types of ILMs, such as supported ionic liquid membranes (SILMs), ionic liquid polymeric membranes (ILPMs), and ionic liquid mixed-matrix membranes (ILMMMs) for the separation of various mixed gas systems, are discussed in detail. Furthermore, issues, challenges, computational studies and future perspectives for ILMs are also considered. The results of the analysis show that SILMs, ILPMs, and the ILMMs are very promising membranes that have great potential in gas separation processes. They offer a wide range of permeabilities and selectivities for CO2, CH4, N2, H2 or mixtures of these gases. In addition, a comparison was made based on the selectivity and permeability of SILMs, ILPMs, and ILMMMs for CO2/CH4 separation based on a Robeson's upper bound curves. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

90. Insights into the Properties and Potential Applications of Renewable Carbohydrate-Based Ionic Liquids: A Review.

Author

Gaida, Bartłomiej, Brzęczek-Szafran, Alina, and Nancarrow, Paul

Subjects
IONIC liquids, ENERGY conversion, LIGNOCELLULOSE, CARBOHYDRATE content of food
Abstract

Carbohydrate-derived ionic liquids have been explored as bio-alternatives to conventional ionic liquids for over a decade. Since their discovery, significant progress has been made regarding synthetic methods, understanding their environmental effect, and developing perspectives on their potential applications. This review discusses the relationships between the structural properties of carbohydrate ionic liquids and their thermal, toxicological, and biodegradability characteristics in terms of guiding future designs of sugar-rich systems for targeted applications. The synthetic strategies related to carbohydrate-based ionic liquids, the most recent relevant advances, and several perspectives for possible applications spanning catalysis, biomedicine, ecology, biomass, and energy conversion are presented herein. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

91. Influence of Tethered Ions on Electric Polarization and Electrorheological Property of Polymerized Ionic Liquids.

Author

He, Fang, Wang, Bo, Zhao, Jia, Zhao, Xiaopeng, Yin, Jianbo, and Nancarrow, Paul

Subjects
POLYMERIZED ionic liquids, CHEMOMETRICS, ACTIVATION energy, IONIC conductivity, ION pairs, IONS, ION energy, FAST ions
Abstract

Polymerized ionic liquids (PILs) show potential to be used as new water-free polyelectrolyte-based electrorheological (ER) material. To direct ER material design at the molecular level, unveiling structure-property relationships is essential. While a few studies compare the mobile ions in PILs there is still a limited understanding of how the structure of tethered counterions on backbone influences ER property. In this study, three PILs with same mobile anions but different tethered countercations (e.g., poly(dimethyldiallylammonium) P[DADMA]+, poly(benzylethyl) trimethylammonium P[VBTMA]+, and poly(1-ethyl-4-vinylimidazolium hexafluorophosphate) P[C2VIm]+) are prepared and the influence of tethered countercations on the ER property of PILs is investigated. It shows that among these PILs, P[DADMA]+ PILs have the strongest ER property and P[C2VIm]+ PILs have the weakest one. By combining dielectric spectra analysis with DFT calculation and activation energy measurement, it can clarify that the influence of tethered counterions on ER property is mainly associated with ion-pair interaction energy that is affecting ionic conductivity and interfacial polarization induced by ion motion. P[DADMA]+ has the smallest ion-pair interaction energy with mobile ions, which can result in the highest ionic conductivity and the fastest interfacial polarization rate for its strongest ER property. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

92. Rheological and heat transfer behaviour of the ionic liquid, [C4mim][NTf2]

Author

Chen, Haisheng, He, Yurong, Zhu, Jianwei, Alias, Hajar, Ding, Yulong, Nancarrow, Paul, Hardacre, Christopher, Rooney, David, and Tan, Chunqing

Subjects
*HEAT transfer, *IONIC liquids, *LAMINAR flow, *FLUID dynamics
Abstract

Abstract: Systematic experiments have been carried out on the thermal and rheological behaviour of the ionic liquid, 1-butyl-3-methylimidazolium bis{(trifluoromethyl)sulfonyl}imide, [C4mim][NTf2], and, for the first time, on the forced convective heat transfer of an ionic liquid under the laminar flow conditions. The results show that the thermal conductivity of the ionic liquid is ∼0.13Wm−1 K−1, which is almost independent of temperature between 25 and 40°C. Rheological measurements show that the [C4mim][NTf2] liquid is a Newtonian fluid with its shear viscosity decreasing with increasing temperature according to the exponential law over a temperature range of 20–90°C. The convective heat transfer experiments demonstrate that the thermal entrance length of the ionic liquid is very large due to its high viscosity and low thermal conductivity. The convective heat transfer coefficient is observed to be much lower than that of distilled water under the same conditions. The convective heat transfer data are also found to fit well to the convectional Shah’s equation under the conditions of this work. [Copyright &y& Elsevier]

Published
2008
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results