The characterisation and modification of binders used in the manufacture of carbon anodes

Twigg, Anthony Nicholas

January 1989

No description available.

668.4

Coal tar pitches

The effects of colliery waste on littoral species and communities

Hyslop, Brian T.

January 1996

No description available.

577

Coal; Macroalgae; Biota

The formation and monitoring of gases associated with the spontaneous combustion of coal

Cooper, Malcolm

January 1991

No description available.

621.43

Coal combustion chemistry

Viscosity effects in small diameter hydrocyclones

Caswell, Robert J.

January 1990

No description available.

532

Coal slurry separation

The development of new coal mines

Forrest, W.

January 1987

No description available.

622

Coal mining developments

Technology transfer for mining projects in developing countries

Dow, Robert

January 1988

No description available.

553.24

Coal mining industries

Coal liquefaction : prediction of yields and behaviour of blends

Pickering, Andrew Mark

January 1996

No description available.

660

Coal blends

The application of expert systems to mine project analysis

Graham, Peter E.

January 1991

No description available.

622

Coal mining

Imaging of subsurface faults by walk-away seismic profile

Jackson, Geoffrey Michael

January 1992

No description available.

621.3994

Coal in-seam seismology

Some properties of cokes produced from high pressure carbonisation of coals

Man, Chi-Keung

January 1990

The British Gas Lurgi slagging gasifier is a counter-current fixed bed gasifier operating at high pressure. Coal descending the gasifier is pyrolysed to form coke which is then gasified. Properties of such coke affect the gasifier in its efficiency of operation. This thesis describes a) the carbonisation of cokes from coal under simulated gasifier conditions, b) the characterisation of the resultant cokes in terms of structure and physical properties and, c) the formulation of relationships between coal thermoplasticity and coke properties. Three high-volatile bituminous coals Manvers Barnburgh NCB 702, and Gedling (Manton NCB 502, NCB 802) were carbonised in an autoclave under a range of pressures (0.5- 8.0 MPa), using two different heating regimes, shock heating to 700 °c and slow heating to 700 °c at 5 °C/min. Physical characterisation of the resultant cokes was carried out using optical and mechanical techniques. Optical anisotropy and image analysis were used to determine coke structure and porosity respectively. Tensile strength, microstrength and abrasion resistance were measured to establish the cokes' resistance to various forms of breakage. High pressure dilatometry and plastometry were used to measure the effects of pressure and heating rate on coal thermoplastic properties. Relationships between coal thermoplastic properties and coke properties are very complex. This work has shown that these relationships are highly dependent on carbonisation conditions with heating rate rather than pressure being the more dominant parameter.

553.24

Coal gasification