Publications
309 results found
Clayton DJ, Jones WP, 2008, Large Eddy Simulation of a Methane-Air Diffusion Flame, FLOW TURBULENCE AND COMBUSTION, Vol: 81, Pages: 497-521, ISSN: 1386-6184
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- Citations: 11
Jones WP, Lentini D, 2008, A realisable non-linear eddy viscosity/diffusivity model for confined swirling flows, INTERNATIONAL JOURNAL OF HEAT AND FLUID FLOW, Vol: 29, Pages: 1612-1627, ISSN: 0142-727X
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- Citations: 4
Bini M, Jones WP, 2008, Large-eddy simulation of particle-laden turbulent flows, JOURNAL OF FLUID MECHANICS, Vol: 614, Pages: 207-252, ISSN: 0022-1120
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- Citations: 121
Jones WP, Navarro-Martinez S, 2008, Study of hydrogen auto-ignition in a turbulent air co-flow using a Large Eddy Simulation approach, COMPUT FLUIDS, Vol: 37, Pages: 802-808, ISSN: 0045-7930
Jones WP, Navarro-Martinez S, 2008, Large Eddy Simulation and the Filtered Probability Density Function Method, International COST Workshop on Les and DNS of Ignition Processes and Complex-Structure Flames with Local Extinction, Publisher: AMER INST PHYSICS, Pages: 39-62, ISSN: 0094-243X
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- Citations: 6
Jones WP, 2007, Fighting against the odds: A history of southern Labor since World War II, SOCIAL HISTORY, Vol: 32, Pages: 362-363, ISSN: 0307-1022
Jones WP, Lobo-Echeverri T, Mi Q, et al., 2007, Cytotoxic constituents from the fruiting branches of <i>Callicarpa americana</i> collected in southern Florida, JOURNAL OF NATURAL PRODUCTS, Vol: 70, Pages: 372-377, ISSN: 0163-3864
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- Citations: 43
Bini M, Jones WP, 2007, Particle acceleration in turbulent flows: A class of nonlinear stochastic models for intermittency, PHYSICS OF FLUIDS, Vol: 19, ISSN: 1070-6631
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- Citations: 52
Jones WP, Navarro-Martinez S, Rohl O, 2007, Large eddy simulation of hydrogen auto-ignition with a probability density function method, PROCEEDINGS OF THE COMBUSTION INSTITUTE, Vol: 31, Pages: 1765-1771, ISSN: 1540-7489
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- Citations: 66
Jones WP, Rigopoulos S, 2007, Reduced chemistry for hydrogen and methanol premixed flames via RCCE, COMBUSTION THEORY AND MODELLING, Vol: 11, Pages: 755-780, ISSN: 1364-7830
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- Citations: 32
Jones WP, Navarro-Martinez S, 2007, Large Eddy Simulation of Auto-ignition with a sub-grid Probability Density Function Method, Combustion and Flame, Vol: 150, Pages: 170-187
Paul SC, Paul MC, Jones WP, 2007, LES for <i>NO</i> prediction in a propane-air turbulent flame, 5th Joint ASME/JSME Fluids Engineering Summer Conference, Publisher: AMER SOC MECHANICAL ENGINEERS, Pages: 1395-1403
Paul SC, Paul MC, Jones WP, 2007, LES for soot formation in a propane-air turbulent flame, 5th Joint ASME/JSME Fluids Engineering Summer Conference, Publisher: AMER SOC MECHANICAL ENGINEERS, Pages: 1385-1394
Derenchuk VP, Ball MS, Baxter DV, et al., 2006, Construction plans for the lens proton linac, Pages: 156-158
The Low Energy Neutron Source (LENS) at Indiana University will provide moderated neutrons in the meV energy range for materials and neutron physics research as well as MeV energy range neutrons for creating a high flux neutron test environment. Neutrons will be generated by colliding 13 MeV protons with a Be target. Since December 2004, using an existing AccSys PL-7 RFQ and DTL, we have been able to deliver a 0.5% duty factor, 10 mA, 7 MeV beam to a Be target mounted next to a 3.6K methane moderator. In 2007, an additional 7 MeV to 13 MeV DTL section will be added and klystrons will be used to power the RFQ and DTL sections. This will improve the output to about 3% duty factor with 20 mA at 13 MeV. A new 75 keV, 150 mA proton injector and 100 mA, high duty factor RFQ is being constructed to replace the original 3 MeV RFQ at a later date. The peak beam current available from the new injector and RFQ will increase to 50 mA with a duty factor of at least 5% or up to 100 mA with lower duty factor. In addition, a conceptual plan has been developed for a 13 MeV to 22 MeV DTL which will boost the maximum instantaneous flux available from the neutron source up to about 1012 n/s/cm2.
Chan KK, Jones WP, Xie Z, et al., 2006, Oral bioavailability and pharmacokinetics in CD2f1 mice of NSC73306, an antitumor agent that selectively kills multidrug-resistant cancer cells, Publisher: PERGAMON-ELSEVIER SCIENCE LTD, Pages: 60-60, ISSN: 1359-6349
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- Citations: 1
Clayton DJ, Jones WP, 2006, Large eddy simulation of impinging jets in a confined flow, 6th International Symposium on Engineering Turbulence Modelling and Measurements (ETMM6), Publisher: SPRINGER, Pages: 127-146, ISSN: 1386-6184
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- Citations: 9
Chin Y-W, Jones WP, Mi Q, et al., 2006, Cytotoxic clerodane diterpenoids from the leaves of <i>Premna tomentosa</i>, PHYTOCHEMISTRY, Vol: 67, Pages: 1243-1248, ISSN: 0031-9422
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- Citations: 22
Mustata R, Valiño L, Jiménez C, et al., 2006, A probability density function Eulerian Monte Carlo field method for large eddy simulations:: Application to a turbulent piloted methane/air diffusion flame (Sandia D), COMBUSTION AND FLAME, Vol: 145, Pages: 88-104, ISSN: 0010-2180
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- Citations: 111
Jones WP, Chin YW, Kinghorn AD, 2006, The role of pharmacognosy in modern medicine and pharmacy, CURRENT DRUG TARGETS, Vol: 7, Pages: 247-264, ISSN: 1389-4501
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- Citations: 87
Fang LQ, Ito A, Chai HB, et al., 2006, Cytotoxic constituents from the stem bark off <i>Dichapetalum gelonioides</i> collected in the Philippines, JOURNAL OF NATURAL PRODUCTS, Vol: 69, Pages: 332-337, ISSN: 0163-3864
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- Citations: 30
Chin YW, Jones WP, Waybright TJ, et al., 2006, Tropane aromatic ester alkaloids from a large-scale re-collection of <i>Erythroxylum pervillei</i> stem bark obtained in Madagascar, JOURNAL OF NATURAL PRODUCTS, Vol: 69, Pages: 414-417, ISSN: 0163-3864
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- Citations: 26
di Mare L, Klein M, Jones WP, et al., 2006, Synthetic turbulence inflow conditions for large-eddy simulation, PHYSICS OF FLUIDS, Vol: 18, ISSN: 1070-6631
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- Citations: 103
Chin YW, Jones WP, Rachman I, et al., 2006, Cytotoxic lignans from the stems of <i>Helicteres hirsuta</i> collected in Indonesia, PHYTOTHERAPY RESEARCH, Vol: 20, Pages: 62-65, ISSN: 0951-418X
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- Citations: 36
Balunas MJ, Jones WP, Chin Y-W, et al., 2006, Relationships between inhibitory activity against a cancer cell line panel, profiles of plants collected, and compound classes isolated in an anticancer drug discovery project, CHEMISTRY & BIODIVERSITY, Vol: 3, Pages: 897-915, ISSN: 1612-1872
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- Citations: 26
Paul MC, Jones WP, 2006, Radiative heat transfer in a model gas turbine combustor, WIT Transactions in Engineering Science, Vol: 53, Pages: 413-421, ISSN: 1743-3533
Derenchuk VP, Baxter DV, Bogdanov AA, et al., 2005, The LENS 7 MeV, 10 mA proton Linac, Pages: 3200-3202
The Indiana University Cyclotron Facility (IUCF) has constructed and placed in operation a Low Energy Neutron Source (LENS) using a 10 mA, 7 MeV proton beam incident on a beryllium target. The proton delivery system (PDS) consists of a 25 keV proton injector, an AccSys Technology, Inc. PL7 Linac [1] and a proton beamline (PEL) with non-linear beam spreading [2]. The accelerator and beamline equipment used in this construction are refurbished and upgraded components from the IUCF CIS/Cooler synchrotron [3] facility. After commissioning the beam current at 7 MeV will be 10 mA with a pulse width of up to 300 μs and > 1% duty factor. The PDS was constructed and commissioning started in 2004. First operating results will be described. © 2005 IEEE.
Derenchuk VP, Anferov V, East G, et al., 2005, Performance of a CW RFQ injector for the IUCF cyclotron, Pages: 3179-3181
A 750 keV RFQ proton pre-injector was installed in place of a 600 keV Cockroft-Walton high voltage terminal for the IUCF k220 Cyclotron [1]. The preinjector consists of a 20 keV microwave ion source and LEBT, a unique design 750 keV CW RFQ, and a short transfer beam line to the k15 injector cyclotron center region [2]. This pre-injector system was installed and commissioned in June of 2003 and is now in routine service as the sole injection system to the cyclotrons. This contribution will discuss the performance of the CW RFQ pre-injector and the transmission properties of the beam through the cyclotrons. © 2005 IEEE.
Jones WP, Baxter D, Derenchuk VP, et al., 2005, Non-linear beam transport for the LENS 7 MEV proton beam, Pages: 1704-1706
A beam transport system has been designed to carry a high-intensity low-emittance proton beam from the exit of the RFQ-DTL acceleration system to the neutron production target of the Indiana University Low Energy Neutron Source (LENS). [1] The goal of the design was to provide a beam of uniform density over a 6cm by 6cm area at the target. Two octupole magnets [2] are employed in the beam line to provide the necessary beam phase space manipulations to achieve this goal. First order calculations have been performed using TRANSPORT [3] and second order calculations have been performed using TURTLE. [4] Second Order calculations have been done using both a Gaussian beam distribution and a particle set generated by calculations of beam transport through the RFQ-DTL using PARMILA. [5] Preliminary performance results for the beam transport system will be discussed. © 2005 IEEE.
Jones WP, Lobo-Echeverri T, Mi QW, et al., 2005, Antitumour activity of 3-chlorodeoxylapachol, a naphthoquinone from <i>Avicennia germinans</i> collected from an experimental lot in southern Florida, JOURNAL OF PHARMACY AND PHARMACOLOGY, Vol: 57, Pages: 1101-1108, ISSN: 0022-3573
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- Citations: 16
Jones WP, Rigopoulos S, 2005, Rate-controlled constrained equilibrium: Formulation and application to nonpremixed laminar flames, COMBUSTION AND FLAME, Vol: 142, Pages: 223-234, ISSN: 0010-2180
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- Citations: 57
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