Workshop Session on Solid Fuel Combustion or How I stopped preaching to the CHOIR and learned to love COAL Position paper: Crispin Pemberton Pigott New.

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Presentation transcript:

Workshop Session on Solid Fuel Combustion or How I stopped preaching to the CHOIR and learned to love COAL Position paper: Crispin Pemberton Pigott New Dawn Engineering Workshop on Domestic Stoves International Conference on Domestic Use of Energy: DUE 2011, Cape Peninsula University of Technology, Belville, 12 – 13 April 2011

What COAL is not is not a dirty smoky fuel any more than paraffin is (and it is not) does not contain ‘smoke’ does not contain carbon-monoxide (CO) does not contain particulate matter does not cause radiation burns or radon gas or any nuclear threat not already present in bananas (which contain Potassium 40)

What COAL is it is very old biomass – the old green it is (usually) a high energy fuel per kg it is relatively low in O 2 compared with new biomass it is widely used by poor people for almost all their energy needs it is widely vilified as a ‘dirty fuel’, in fact it has been demonized as the very definition of dirty fuel

Why do COAL stoves smoke? because the stove does not burn all the fuel or all the CO or all the smoke because the stove was not designed to burn coal It is the STOVE which smokes, not the COAL !

Baseline Stove Emissions of PM 2.5

Clean ways to burn COAL Fluidised beds? Not really, at least no so far. In a cast iron coal stove? Not really, so far. Co-fired with wood? Bad experience so far. Gasifier, yielding coke? Big energy losses. Only three methods found so far 1.Top-lit Up-draft (TLUD) stoves 2.Bottom-lit Down-draft (BLDD) stoves 3.End-lit Cross-draft (ELCD) stoves

Why do these three methods work? They have common elements in their design: Only a small portion of the fuel is ignited at once Newly evaporated volatiles are passed through a bed of hot coke The volatiles are cracked to make producer gas Ash is cleared from the places where gases burn Excess air is limited => good air:fuel ratio Correct primary:secondary air split (not the same as the correct air:fuel ratio)

Hopper-fed cross draft stove

The gas path is long

ELCD PM2.5 Reduction Time (minutes) PM 2.5/m 3 & Mass burned

Crossdraft PM 2.5 Reduction Time (minutes) PM 2.5/m 3 & Mass burned

TLUD PM2.5 reduction Time (minutes) PM 2.5/m 3 & Mass burned

Hopper + crossdraft PM 2.5 reduction Time (minutes) PM 2.5/m 3 & Mass burned

Comparison of 20 stoves PM 2.5 Baseline “Improved” stove Really improved! Official Target 2008: 30% reduction Unofficial Target: Target: 98% reduction Achieved March 2011: 5 successful products >98% reduction Best: >99% (3 products) PM 2.5 per Net MJ