https://ogma.newcastle.edu.au/vital/access/ /manager/Index en-au 5 Pooling problems: advances in theory and applications https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:30594 Wed 11 Apr 2018 13:35:21 AEST ]]> Application of DEM to Blending and Homogeneity Evaluation and Improvement in a Belt Conveyor Transfer Chute System https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:49226 Sun 07 May 2023 09:44:20 AEST ]]> Fixed-charge transportation with product blending https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:12542 Sat 24 Mar 2018 08:17:05 AEDT ]]> New multi-commodity flow formulations for the pooling problem https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:27959 Sat 24 Mar 2018 07:38:44 AEDT ]]> A decision support tool for generating shipping data for the Hunter Valley coal chain https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:24262 Sat 24 Mar 2018 07:14:58 AEDT ]]> Improvement in reactivity and pollutant emission by cofiring of coal and pretreated biomass https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:48503 2, CO, NO, and SO₂) were also investigated during the combustion process (O₂, 21%; N₂, 79%) to compare coal and biomass blends with coal and pretreated biomass blends. These results, including the emission peak and integral value, generally decreased as the biomass blending ratio increased except for the NO emission. The SO₂ emission decreased only with an increase in the ashless biomass owing to the lower sulfur content in ashless biomass. Overall, this study indicated that blending pretreated biomass, especially ashless biomass, is more effective toward better cocombustion and environmental behavior as the biomass blending ratio increases.]]> Mon 29 Jan 2024 17:44:28 AEDT ]]> Simulation and analysis of blending in a conveyor transfer system https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:40585 Fri 15 Jul 2022 10:46:14 AEST ]]>