| ปี พ.ศ. 2555 |
| 1 |
UK Innovation Potential in Advanced Water Treatment: Future Directions & Strategy II |
| ปี พ.ศ. 2554 |
| 2 |
Sorption of pesticide endosulfan by electrodialysis membranes |
| 3 |
Removal of pharmaceuticals and endocrine disrupting compounds in water recycling process using reverse osmosis systems |
| 4 |
Renewable energy powered membrane technology: Salt and inorganic contaminant removal by nanofiltration/reverse osmosis |
| 5 |
The effect of wind speed fluctuations on the performance of a wind-powered membrane system for brackish water desalination |
| 6 |
Micropollutant Sorption to Membrane Polymers: A Review of Mechanisms for Estrogens |
| 7 |
Innovation in the Water Industry: Challenges and Opportunities from the Water Engineering Perspective |
| 8 |
UK Innovation Potential in Advanced Water Treatment: Future Directions & Strategy I |
| 9 |
Removal of adsorbing estrogenic micropollutants by nanofiltration membranes in cross-flow – experiments and model development |
| ปี พ.ศ. 2553 |
| 10 |
Removal of inorganic and trace organic contaminants by electrodialysis |
| 11 |
Sorption of steroidal hormones by electrodialysis membranes |
| 12 |
Micropollutants in Water Recycling: A Case Study of N-Nitrosodimethylamine (NDMA) Exposure from Water versus Food |
| 13 |
Impact of organic matrix compounds on the retention of steroid hormone estrone by a ‘loose’ nanofiltration membrane |
| 14 |
Sorption of micropollutant estrone to a water treatment ion exchange resin |
| 15 |
Impact of pH on the removal of fluoride, nitrate and boron by nanofiltration/reverse osmosis |
| 16 |
Impact of speciation on removal of manganese and organic matter by nanofiltration |
| 17 |
Impact of speciation on behaviour of uranium in a solar powered membrane system for treatment of brackish groundwater |
| 18 |
Chemical drinking water quality in Ghana: Water costs and scope for advanced treatment |
| 19 |
Impact of organic matter and speciation on the behaviour of uranium in submerged ultrafiltration |
| 20 |
Xenobiotics removal by membrane technology: an overview |
| ปี พ.ศ. 2552 |
| 21 |
Influence of solute-solute interactions on membrane filtration |
| 22 |
Desalinated versus recycled water — public perceptions and profiles of the accepters |
| 23 |
The role of NOM fouling for the retention of estradiol and ibuprofen during ultrafiltration |
| 24 |
Magnetic ion exchange: Is there potential for international development? |
| 25 |
pH dependence of steroid hormone—organic matter interactions at environmental concentrations |
| 26 |
The influence of pH on losses of analyte estradiol in sample pre-filtration |
| 27 |
Application of solar-powered desalination in a remote town in South Australia |
| 28 |
Physico-chemical water quality in Ghana: Prospects for water supply technology implementation |
| 29 |
Impact of speciation on fluoride, arsenic and magnesium retention by nanofiltration/reverse osmosis in remote Australian communities |
| 30 |
Removal of boron, fluoride and nitrate by electrodialysis in the presence of organic matter |
| 31 |
Removal of inorganic trace contaminants by electrodialysis in a remote Australian community |
| 32 |
Potential of wind-powered renewable energy membrane systems for Ghana |
| 33 |
Ultrafiltration to supply safe drinking water in developing countries: A review of opportunities |
| 34 |
Impact of Feedwater Salinity on Energy Requirements of a Small-Scale Membrane Filtration System |
| 35 |
Renewable Energy Powered Water Treatment Systems |
| ปี พ.ศ. 2551 |
| 36 |
Quantification of Solute–Solute Interactions Using Negligible-Depletion Solid-Phase Microextraction: Measuring the Affinity of Estradiol to Bulk Organic Matter |
| 37 |
Renewable energy powered membrane technology. 2. The effect of energy fluctuations on performance of a photovoltaic hybrid membrane system |
| ปี พ.ศ. 2550 |
| 38 |
From concept to commercialisation: student learning in a sustainable engineering innovation project |
| 39 |
Social aspects of a solar-powered desalination unit for remote Australian communities |
| 40 |
Desalination using electrodialysis as a function of voltage and salt concentration |
| 41 |
Occurrence of pharmaceutically active and non-steroidal estrogenic compounds in three different wastewater recycling schemes in Australia |
| 42 |
Renewable Energy Powered Membrane Technology. 1. Development and Characterization of a Photovoltaic Hybrid Membrane System |
| ปี พ.ศ. 2549 |
| 43 |
Critical risk points of nanofiltration and reverse osmosis processes in water recycling applications |
| 44 |
Fouling in greywater recycling by direct ultrafiltration |
| 45 |
Relevance of the precautionary principle in water recycling |
| 46 |
Fouling autopsy of hollow-fibre MF membranes in wastewater reclamation |
| 47 |
A new approach to increasing diversity in engineering at the example of women in engineering |
| 48 |
Role of electrostatic interactions in the retention of pharmaceutically active contaminants by a loose nanofiltration membrane |
| 49 |
Bisphenol A retention in the direct ultrafiltration of greywater |
| 50 |
Public perception of desalinated versus recycled water in Australia |
| ปี พ.ศ. 2548 |
| 51 |
Nanofiltration of hormone mimicking trace organic contaminants |
| 52 |
A performance comparison of individual and combined treatment modules for water recycling |
| 53 |
Pharmaceutical Retention Mechanisms by Nanofiltration Membranes |
| 54 |
Testing of a hybrid membrane system for groundwater desalination in an Australian national park |
| 55 |
Membranes and renewable energy — a new era of sustainable development for developing countries |
| 56 |
Steroid estrogens in ocean sediments |
| 57 |
Fate of Steroid Estrogens in Australian Inland and Coastal Wastewater Treatment Plants |
| 58 |
Steroid estrogens in primary and tertiary wastewater treatment plants |
| 59 |
Predicting Fate of the Contraceptive Pill in Wastewater Treatment and Discharge |
| 60 |
The role of membrane processes in municipal wastewater reclamation and reuse |
| 61 |
Fouling mechanisms of submerged ultrafiltration membranes in greywater recycling |
| 62 |
Removal and fouling mechanisms in nanofiltration of polysaccharide solutions |
| 63 |
System design and performance testing of a hybrid membrane — photovltaic desalination system |
| ปี พ.ศ. 2547 |
| 64 |
Adsorption and Transport of Trace Contaminant Estrone in NF/RO Membranes |
| 65 |
The role of endocrine disrupters in water recycling: risk or mania? |
| 66 |
Removal of hormones and pharmaceuticals in the Advanced Water Recycling Demonstration Plant in Queensland, Australia |
| 67 |
Fouling in Nanofiltration |
| 68 |
Trace Contaminant Removal with Nanofiltration |
| 69 |
Assessment of Trace Estrogenic Contaminants Removal by Coagulant Addition, Powdered Activated Carbon Adsorption and Powdered Activated Carbon/Microfiltration Processes |
| 70 |
Estrogenic hormone removal from wastewater using NF/RO membranes |
| 71 |
Impediments to municipal water recycling in Australia |
| 72 |
Performance of a small solar-powered hybrid membrane system for remote communities under varying feedwater salinities |
| 73 |
Natural organic matter removal by nanofiltration: effects of solution chemistry on retention of low molar mass acids versus bulk organic matter |
| 74 |
Removal of Natural Hormones by Nanofiltration Membranes: Measurement, Modeling, and Mechanisms |
| ปี พ.ศ. 2546 |
| 75 |
Removal of the Natural Hormone Estrone from Aqueous Solutions using Nanofiltration and Reverse Osmosis |
| 76 |
Membrane filtration in water recycling: removal of natural hormones |
| 77 |
Adsorption of the Endocrine-Active Compound Estrone on Microfiltration Hollow Fiber Membranes |
| 78 |
Photovoltaic-powered desalination system for remote Australian communities |
| ปี พ.ศ. 2545 |
| 79 |
Charge Effects in the Fractionation of Natural Organics using Ultrafiltration |
| 80 |
Binding of Estrone to Microfiltration Hollow Fibre Membranes in Filtration of Solutions Containing Trace Estrone |
| 81 |
Adsorptive interactions between membranes and trace contaminants |
| 82 |
Particle interactions and removal of trace contaminants from water and wastewaters |
| 83 |
Adsorption of trace steroid estrogens to hydrophobic hollow fibre membranes |
| 84 |
Adsorption of Estrone on nanofiltration and reverse osmosis membranes in water and wastewater treatment |
| 85 |
Trace Contaminant Removal using Hybrid Membrane Processes in Water Recycling |
| 86 |
Design considerations for a solar-powered desalination system for remote communities in Australia |
| ปี พ.ศ. 2544 |
| 87 |
Ultrafiltration of Natural Organic Matter |
| 88 |
Role of hydrophobic and electrostatic Interactions for initial enteric virus retention by MF membranes |
| 89 |
Cost factors and chemical pretreatment effects in the membrane filtration of waters containing natural organic matter |
| ปี พ.ศ. 2543 |
| 90 |
Fouling effects on rejection in the membrane filtration of natural waters |
| 91 |
Microfiltration of colloids and natural organic matter |
| ปี พ.ศ. 2542 |
| 92 |
Colloidal Fouling of Ultrafiltration Membranes: Impact of Aggregate Structure and Size |
| ปี พ.ศ. 2541 |
| 93 |
Nanofiltration of Natural Organic Matter: Removal, Fouling and the Influence of Multivalent Ions |
| 94 |
Chemical Addition prior to Membrane Processes for Natural Organic Matter (NOM) Removal |
