Molten Salt Oxidation Process (MSOP)
MSOP is an ecologically safe and sustainable method to convert organic matter including, wood, paper and paper processing sludge, crop waste, hard human waste, sewage, animal manure, packing and processing waste, animal fats and just about any other kinds of organic wastes you can think of into high quality fuel.
The MSOP process takes place in an all-closed reactor within a molten salt bath, in which all materials separate into synthetic gas, H2, and H20. End product of the reactor is either bio-gas or synthetic gas which can further be used to produce electricity, gasoline through gas-synthesis, bio diesel, bio gasoline A-95, LPG, and other energy products.
MSOP is most sustainable when the molten salt is heated using a small high temperature (950C) nuclear reactor with a thermal output of as little as 10 megawatts.
The MOSP is a universal method allowing utilization of all types of organic waste featuring a single simple common interface. This process is extremely simple and is comprised of a minimal number of stages for preparation of syngas to the fuel formulation process.
The molten salt supports raw materials with high moisture content.
The optimal operating temperatures ranges of the molten salt are 900-950C. The molten salt heat transfer medium effectively, evenly and rapidly transfers heat onto organic compounds.
Since the process heat for this process ideally comes from nuclear power, it eliminates one of the big downsides of biofuel production; it does not deplete the soil of vital nutrients. The residual char and ash from the process is captured as a soil additive to replenish the soil producing the organic material. This also removes and sequesters additional CO2 from the air thereby mitigating global warming and at the same time makes the land more productive.
Under a cap and trade CO2 payment system, this carbon sequestration capability will afford an additional revenue stream.
Below, the high temperature syngas product is reformed into high quality fuel.
An example application of the MOSP is illustrated as a Material Balance Diagram below:
Until the West deigns to develop a small high temperature nuclear reactor with a process heat output of 950C, such a reactor will be available from India sometime after 2014. This reactor is called the Compact High Temperature Reactor (CHTR) and is being designed and built in India.
The MSOP process can be a leading application of this type of reactor.
