The important characteristics of a gas-promoted oil agglomeration process for cleaning coal particles in an aqueous suspension were determined. Numerous agglomeration tests with scale-model mixing systems of different sizes with controlled amounts of air were conducted. The tests were conducted on high- and medium-volatile bituminous coals using either i-octane or hexadecane as an oily agglomerant. The performance of the system was characterized by employing the minimum time required to produce spherical agglomerates (tE), the mean agglomerate diameter (dp), coal recovery and product ash content. Among these parameters, tE was found the most useful. It is a key parameter in the scale-up of an agglomeration mixing system. This parameter was found to depend on a number of system and operating variables. By controlling these variables and conducting further agglomeration tests with mixing systems that varied in size, an appropriate size scale-up rule was established.
[1]
Kinetics of a gas-promoted oil agglomeration process
,
1996
.
[2]
T. Wheelock,et al.
Influence of air on oil agglomeration of carbonaceous solids in aqueous suspension
,
1986
.
[3]
James Y. Oldshue,et al.
Fluid Mixing Technology
,
1983
.
[4]
Arthur F. Taggart.
Handbook of ore dressing
,
1942
.
[5]
K. Darcovich,et al.
A survey of oil agglomeration in wet fine coal processing
,
1984
.
[6]
The adsorption of toluene vapor on water surfaces
,
1968
.
[7]
R. Robinson,et al.
Development of a full scale selective oil agglomeration plant
,
1998
.