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| Name: |
Professor PL Younger |
| Organisation: |
University of Glasgow |
| Department: |
School of Engineering |
| Current EPSRC-Supported Research
Topics: |
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| Current EPSRC Support |
| There is no current EPSRC Support |
| Previous EPSRC Support |
| EP/R003122/1 | Newton Fund: An ORC power plant integrated with thermal energy storage to utilise renewable heat sources for distributed H&P | (C) |
| EP/N020472/1 | Thermally Driven Heat Pump Based on an Integrated Thermodynamic Cycle for Low Carbon Domestic Heating (Therma-Pump) | (C) |
| EP/M01343X/1 | Real time control of gasifiers to increase tolerance to biomass variety and reduce emissions | (C) |
| EP/I036427/1 | SAFE Barriers - a Systems Approach For Engineered Barriers | (C) |
| EP/F008473/1 | General and Unifying Concepts for Wastewater Treatment Plant Design | (C) |
| EP/F013337/1 | Environmental Engineers of Tomorrow: Developing A Shared Tool Box Through Collaboration | (C) |
| GR/S66978/01 | Chemical, Biochemical & Physical Constraints during Mine Water Treatment using Vertical Flow Accretion Systems | (C) |
| GR/S59543/01 | PLATFORM: General & unifying concepts for wastewater treatment plant design | (C) |
| GR/S49155/01 | The use of recycled construction/demolition and industrial waste as a substrate in a novel manganese removal passive treatment system | (R) |
| GR/S07247/01 | Bioremediation of acidic mine waters by sulphate reduction in novel, compost-based, field-scale bioreactors | (P) |
| GR/R73522/01 | Novel use of ochre from mine water treatment plants to reduce point and diffuse phosphorus pollution | (P) |
| GR/L55421/01 | OPTIMISATION OF OCHRE ACCRETION AT SOURCE: EXPLORING A NEW TECHNOLOGY FOR REMEDIATION OF MINEWATER POLLUTION | (P) |
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Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
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