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|Title||Coal mineral transformations - Effects on boiler ash behaviour|
|Energy Categories||FOSSIL FUELS: OIL, GAS and COAL(Coal, Coal combustion) 80%;
OTHER POWER and STORAGE TECHNOLOGIES(Electric power conversion) 20%;
|Research Types||Applied Research and Development 100%|
|Science and Technology Fields||ENGINEERING AND TECHNOLOGY 100%|
|UKERC Cross Cutting Characterisation||Not Cross-cutting 100%|
Professor J Williamson
No email address given
Imperial College London
|Start Date||01 March 2000|
|End Date||01 March 2003|
|Total Grant Value||£198,600|
|Investigators||Principal Investigator||Professor J Williamson , Imperial College London (99.997%)|
|Other Investigator|| Project Contact , Rio Tinto Technology Development Ltd (0.001%)
Project Contact , Eastern Generation Ltd (0.001%)
Project Contact , University of Nottingham (0.001%)
The range of coals encountered by new and existing power stations in the UK and abroad is steadily increasing. The inorganic component the mineral matter of coal impacts directly on plant availability through coal ash slagging, emission limits especially for fine particulate material and ash use and disposal. These factors constrain the acceptable range of coals for power station use. This project addresses the lack of fundamental understanding of the processes and rates of coal ash formation. It also considers the inability to predict boiler ash properties and behaviour because of a lack of detailed numerical descriptions for fly ash. The objectives of this project are:
A wide range of coals, characterised by their mineral and organic constituents and of interest to UK and overseas power station operators, will be selected for the study. Combustion performance and coal mineral transformations will be studied at a power station, at Powergen s 1 MW combustion test facility and in the high-temperature entrained flow reactor (EFR) at Imperial College. The interactions between coal minerals will also be investigated in the EFR under a range of combustion conditions. The chemical and physical properties of the resulting ash samples particularly the smallest particles willbe characterised by computer-controlled scanning electron microscopy.
The effects of temperature, residence time, oxygen concentration and association with coal organic material on the transformations of major coal minerals will be determined, and the interactions of coal ash particles following deposition will be investigated. The implications of the coa l and ash properties and transformations on the wider aspects of pulverised coalfired power station operation will be considered.
Coal suppliers and power station operators will benefit from quantitative data describing boiler ashes and their parent coal minerals, improved understanding of the transformations undergone by major coal minerals during pulverised coal combustion and the effect of these transformations on boiler ash formation and deposition processes.
|Publications||DTI (2001). Coal Mineral Transformations - Effects On Boiler Ash Behaviour: Project Summary 289. DTI Cleaner Coal Technology Programme, URN 01/899, DTI, UK (PDF 44 KB)
|Final Report||Wigley, F. & Williamson, J. (2005). Coal Mineral Transformations - Effects on Boiler Ash Behaviour. Report No. COAL R278 DTI/Pub URN 05/659, DTI, UK (PDF 1085 KB)
|Added to Database||01/01/07|