Rb. Slimane et al., PREPARATION AND TESTING OF VALUE-ADDED SULFUR SORBENT PELLETS FROM IN-SITU MINED MINNESOTA MANGANESE DEPOSITS, Energy & fuels, 10(6), 1996, pp. 1250-1256
The U.S. Bureau of Mines is developing an in situ leach mining process
that would selectively extract manganese from low-grade oxide ores in
the Cuyuna range deposits of central Minnesota. Aqueous sulfur dioxid
e solutions are used to leach the manganese contained in core samples,
and the resulting sulfate stream contains about 28 g of Mn/L. The pra
ctical feasibility of manganese recovery by oxidation and selective pr
ecipitation of iron (major impurity) from the leach solution, followed
by manganese precipitation in the form of carbonate, was established.
To ensure the economic feasibility of this advanced mining process, i
t would be desirable to develop a manganese-based product having a pot
ential market value of at least $1.00/lb. Such potential exists in the
area of a regenerable sorbent for the desulfurization of coal-derived
fuel gases at high temperatures (>500 degrees C). For these reasons,
a number of pellet formulations consisting of the manganese carbonate
product, alundum, and bentonite are prepared and subjected to screenin
g tests in a thermogravimetric apparatus. The effectiveness (in terms
of sulfur capacity, extent of reaction, and kinetics) of these pellet
formulations in removing sulfur from hot H2S-H-2 gas mixtures is evalu
ated and then compared to that of a leading Mn-based sulfur sorbent.