Carbon Micro Particles Technology is cost effective and can bring significant benefits whenever large-scale industrial size boilers are in operation.
General advantages of implementation of our technologies are reductions in energy production costs and harmful emissions.
It starts with the fuel preparation phase where we grind carbon particles into nano levels with less energy intensive methods using cavitation and other technics. Higher quality fuel slurry fand vortex technologies rresults in almost complete burn out of carbon and significant reductions in NOx, SO2, СО, СО2 emissions.
Other benefits include higher degree of flexibility for a fuel mix and shorter launch times. If necessary, CWF can be mixed with other types of fuel, including fuel oil, coal and gas. Under Carbon Micro Particles combustion, performance of boilers increases up to 95%
Construction of new coal plants for Carbon Micro Particles production (compared to pulverized coal combustion technology) reduces production costs: electricity by 26-33%, heat by 25-27%, capital costs by 15% by eliminating units for coal desiccation and fuel supply system.
Applying cavitation and hydro shocking in liquid environments provides for significantly improved comminution processes resulting in smaller carbon particles of 3-5 microns and lower energy consumption of 15-20 kWh per ton.
The coal will be converted into the Coal-Water-Slurry (CWS). The CWS is a substituent fuel that may be used in industrial and steam power plant boilers. It is also characterized by significant cost savings and ease of operating.
CWS is a coal based fluid fuel containing 60% pulverized coal and 40% water. It can be easily loaded, stored and pipeline transported like any fluid fuel. CWS is a clean emissions' fuel for power generation.
Carbon Micro Particles Fuels
In relation to the existing basis of fuel and used boiling technology, one of the alternative three methods of improvement could be applied - modernized fluidized bed, direct vortex burning and mixing augmentation system or separate primary furnace with vortex and plasma oscillators. The latter is used to create a closed cycle system for CO2 utilization.
Innovative Vortex Combustion
Flue gas treatment system based on centrifugal separation of gases and solid mixtures like sulfur are then introduced to minimize hazardous emissions making the overall system at least as good as NGCC. The technologic process permits for a multi-gases purification to 99,98% level.