Your search keyword '"Barns K"' showing total 8 results

1. From magnetite to chalcopyrite: a story of versatility and efficiency at Glencore’s Ernest Henry mining operation.

Author

Siliezar J., 12th AusIMM mill operators’ conference Townsville, Queensland 01-Sep-1403-Sep-14, Barns K., Larson M., Law H., Perkins T., Scobie P., Whebell T., Siliezar J., 12th AusIMM mill operators’ conference Townsville, Queensland 01-Sep-1403-Sep-14, Barns K., Larson M., Law H., Perkins T., Scobie P., and Whebell T.

Abstract

The Ernest Henry orebody in Queensland, Australia, is an iron oxide-copper-gold deposit with an average grade of 0.97% Cu and 0.5 g/t Au. Magnetite production began in December 2010 and was suspended in August 1013 due to market conditions. Mount Margaret was developed as a satellite operation to increase ore production while the underground development project was undertaken. Relatively high levels of sulphide gangue were reporting to the final Cu concentrate during the first few months of processing the Mount Margaret ore, resulting in a final Cu grade just below the 25% target. The data showed that a P80 regrind of 20 micrometres was required to achieve similar liberation levels as the Ernest Henry ore. Changes were made to the flowsheet, which formerly included a 937 kW Vertimill, in which a 3MW IsaMill previously used for magnetite processing was operated in parallel with the Vertimill in closed circuit. The P80 of the regrind circuit was reduced to below 20 micrometres, which increased the final concentrate grade by 4%., The Ernest Henry orebody in Queensland, Australia, is an iron oxide-copper-gold deposit with an average grade of 0.97% Cu and 0.5 g/t Au. Magnetite production began in December 2010 and was suspended in August 1013 due to market conditions. Mount Margaret was developed as a satellite operation to increase ore production while the underground development project was undertaken. Relatively high levels of sulphide gangue were reporting to the final Cu concentrate during the first few months of processing the Mount Margaret ore, resulting in a final Cu grade just below the 25% target. The data showed that a P80 regrind of 20 micrometres was required to achieve similar liberation levels as the Ernest Henry ore. Changes were made to the flowsheet, which formerly included a 937 kW Vertimill, in which a 3MW IsaMill previously used for magnetite processing was operated in parallel with the Vertimill in closed circuit. The P80 of the regrind circuit was reduced to below 20 micrometres, which increased the final concentrate grade by 4%.

Published

2014

2. Benchmarking energy efficiency: a case study at Macraes gold mine.

Author

Barns K., Metallurgical plant design and operation Perth, Western Australia 06-Sep-0407-Sep-04, Lane G., Osten K., Scagliotta N., Barns K., Metallurgical plant design and operation Perth, Western Australia 06-Sep-0407-Sep-04, Lane G., Osten K., and Scagliotta N.

Abstract

The Macraes orebody (near Dunedin, New Zealand) is mineralogically complex and comparatively low-grade, requiring a series of unit processes in a complex plant. One aspect of improving operational efficiency is energy efficiency, which has been compared with other operating mines and with theoretical design. In theory a simple process, the issues involved in benchmarking are complex where there is variation in the ore and in the associated processing methods. Processes examined included those of the comminution circuit, the flotation plant, pressure oxidation plant and gold recovery circuits. "World's Best Practice" (WBP) has been determined for the grinding mills, the oxygen plant and utilisation of oxygen in the pressure oxidation plant. It was not possible to determine it for the other unit processes as they are distributed across multiple motor control centres and energy measurement can be done only on the basis of a single one. Macraes' performance for the grinding mills and the pressure oxidation plant compared favourably with WBP; energy efficiency associated with oxygen production and utilisation will be improved., The Macraes orebody (near Dunedin, New Zealand) is mineralogically complex and comparatively low-grade, requiring a series of unit processes in a complex plant. One aspect of improving operational efficiency is energy efficiency, which has been compared with other operating mines and with theoretical design. In theory a simple process, the issues involved in benchmarking are complex where there is variation in the ore and in the associated processing methods. Processes examined included those of the comminution circuit, the flotation plant, pressure oxidation plant and gold recovery circuits. "World's Best Practice" (WBP) has been determined for the grinding mills, the oxygen plant and utilisation of oxygen in the pressure oxidation plant. It was not possible to determine it for the other unit processes as they are distributed across multiple motor control centres and energy measurement can be done only on the basis of a single one. Macraes' performance for the grinding mills and the pressure oxidation plant compared favourably with WBP; energy efficiency associated with oxygen production and utilisation will be improved.

Published

2004

3. Management of ocular trauma in emergency (MOTE) trial: A pilot randomized double-blinded trial comparing topical amethocaine with saline in the outpatient management of corneal trauma

Author

Ting Joseph, Barns Kenneth, and Holmes John

Subjects

Corneal injury, ocular anesthetic, topical analgesia, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Background: It is unclear whether local anesthetic eye drops can be safely used for the topical anesthesia of patients with minor corneal injury who are discharged from the emergency department (ED). Objectives: To assess whether topical 0.4% amethocaine self-administered to a maximum recommended frequency of once every hour for 36-48 h is safe in the management of uncomplicated corneal injury in patients discharged from the ED. Patients and Methods: A pilot randomized double-blinded trial comparing topical 0.4% amethocaine with topical normal saline. Results: Forty-seven subjects were recruited, with 22 randomized to receive amethocaine and 25 to receive placebo (normal saline) . Baseline characteristics, including corneal injury type, were similar in both groups. There were no significant functional or clinical adverse sequelae in the majority of enrolled patients who could be contacted at 2 weeks (17/22 for amethocaine and 21/25 for placebo). Follow-up for the primary study outcome was suboptimal, with only 7/22 from the amethocaine group and 9/25 from the saline group presenting for 36-48 h review; there was a statistically nonsignificant trend for persistence of the corneal defect in the amethocaine group as compared with the saline group (2/7 and 1/9, respectively). Conclusion: Compared with saline drops, amethocaine eye drops are not definitely safe but they are effective for topical analgesia in minor corneal injury. Until further definitive studies, topical nonsteroidal agents or long-lasting artificial tears may be preferred for the topical analgesia of minor corneal injury. Return for corneal re-evaluation will necessarily remain suboptimal in an otherwise self-limiting condition, leading to a bias even if study recruitment is good.

Published

2009

4. Developing a User-Centric Understanding of Post-Disaster Building Damage Information Needs

Author

Bhattacharjee, G., Barns, K., Loos, S., Lallemant, D., Gregory Deierlein, Kiremidjian, A., and Soden, R.

5. Crowd-sourced remote assessments of regional-scale post-disaster damage

Author

Loos, S., Barns, K., Bhattacharjee, G., Soden, R., Herfort, B., Eckle, M., Giovando, C., Girardot, B., Saito, K., Deierlein, G., Kiremidjian, A., Baker, J., and David Lallemant

6. Turbinmicin inhibits Candida biofilm growth by disrupting fungal vesicle-mediated trafficking.

Author

Zhao M, Zhang F, Zarnowski R, Barns K, Jones R, Fossen J, Sanchez H, Rajski SR, Audhya A, Bugni TS, and Andes DR

Subjects

Biofilms growth & development, Benzopyrans pharmacology, Biofilms drug effects, Candida physiology, Extracellular Vesicles metabolism, Isoquinolines pharmacology

Abstract

The emergence of drug-resistant fungi has prompted an urgent threat alert from the US Centers for Disease Control (CDC). Biofilm assembly by these pathogens further impairs effective therapy. We recently identified an antifungal, turbinmicin, that inhibits the fungal vesicle-mediated trafficking pathway and demonstrates broad-spectrum activity against planktonically growing fungi. During biofilm growth, vesicles with unique features play a critical role in the delivery of biofilm extracellular matrix components. As these components are largely responsible for the drug resistance associated with biofilm growth, we explored the utility of turbinmicin in the biofilm setting. We found that turbinmicin disrupted extracellular vesicle (EV) delivery during biofilm growth and that this impaired the subsequent assembly of the biofilm matrix. We demonstrated that elimination of the extracellular matrix rendered the drug-resistant biofilm communities susceptible to fungal killing by turbinmicin. Furthermore, the addition of turbinmicin to otherwise ineffective antifungal therapy potentiated the activity of these drugs. The underlying role of vesicles explains this dramatic activity and was supported by phenotype reversal with the addition of exogenous biofilm EVs. This striking capacity to cripple biofilm assembly mechanisms reveals a new approach to eradicating biofilms and sheds light on turbinmicin as a promising anti-biofilm drug.

Published

2021

7. A marine microbiome antifungal targets urgent-threat drug-resistant fungi.

Author

Zhang F, Zhao M, Braun DR, Ericksen SS, Piotrowski JS, Nelson J, Peng J, Ananiev GE, Chanana S, Barns K, Fossen J, Sanchez H, Chevrette MG, Guzei IA, Zhao C, Guo L, Tang W, Currie CR, Rajski SR, Audhya A, Andes DR, and Bugni TS

Subjects

Animals, Antifungal Agents chemistry, Antifungal Agents therapeutic use, Benzopyrans chemistry, Benzopyrans therapeutic use, Disease Models, Animal, Fungal Proteins metabolism, Isoquinolines chemistry, Isoquinolines therapeutic use, Mice, Microbiota, Phospholipid Transfer Proteins metabolism, Antifungal Agents pharmacology, Benzopyrans pharmacology, Candida drug effects, Candidiasis, Invasive drug therapy, Drug Resistance, Multiple, Fungal, Isoquinolines pharmacology, Micromonospora chemistry, Urochordata microbiology

Abstract

New antifungal drugs are urgently needed to address the emergence and transcontinental spread of fungal infectious diseases, such as pandrug-resistant Candida auris. Leveraging the microbiomes of marine animals and cutting-edge metabolomics and genomic tools, we identified encouraging lead antifungal molecules with in vivo efficacy. The most promising lead, turbinmicin, displays potent in vitro and mouse-model efficacy toward multiple-drug-resistant fungal pathogens, exhibits a wide safety index, and functions through a fungal-specific mode of action, targeting Sec14 of the vesicular trafficking pathway. The efficacy, safety, and mode of action distinct from other antifungal drugs make turbinmicin a highly promising antifungal drug lead to help address devastating global fungal pathogens such as C. auris., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2020

8. Thalassosamide, a Siderophore Discovered from the Marine-Derived Bacterium Thalassospira profundimaris.

Author

Zhang F, Barns K, Hoffmann FM, Braun DR, Andes DR, and Bugni TS

Subjects

Biological Products chemistry, Circular Dichroism, Hydroxamic Acids chemistry, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Tandem Mass Spectrometry, Biological Products isolation & purification, Biological Products pharmacology, Hydroxamic Acids isolation & purification, Pseudomonas aeruginosa chemistry, Siderophores chemistry, Siderophores isolation & purification, Siderophores pharmacology

Abstract

Here we describe the rapid identification and prioritization of novel active marine natural products using an improved dereplication strategy. During the course of our screening of marine natural product libraries, a new cyclic trihydroxamate compound, thalassosamide, was discovered from the α-proteobacterium Thalassospira profundimaris. Its structure was determined by 2D NMR and MS/MS experiments, and the absolute configuration of the lysine-derived units was established by Marfey's analysis, whereas that of C-9, 9', and 9″ was determined via the circular dichroism data of the [Rh 2 (OCOCF 3 ) 4 ] complex and DFT NMR calculations. Thalassosamide showed moderate in vivo efficacy against Pseudomonas aeruginosa.

Published

2017