• Producing The World's First Solid State CO2 Turbine
• Use 95 Percent Of The World's Available Waste Heat For Fuel Source
• Made in the USA | CO2 Rankine Cycle | Use Waste Heat Above 31C
• TriboElectric Electrostatic Precipitation Oil Recovery System (CO2 Systems)
• DC Power
• Industrial | Geothermal | Solar | Data Center | Compressor | Biomass
• Innovating Metal 3D Printer Technology
• Electrostatics in Industry - Electrostatic Precipitation
• Graphene production
TriboGen Experimental System
TriboGen | TriboElectric Effect
Introducing the SST (Solid State Turbine) Producing Electricity Using CO2 With No Moving Parts
TriboElectric Effect: Nikola Tesla worked with static electricity and wireless transmission in 1899 from the top of Pikes Peak to his lab in Colorado Springs, Colorado. Fast forward to 2016. Infinity was working with Supercritical CO2 systems, when they discovered an interesting effect - static electricity when CO2 passed over certain materials. That discovery became a commercial product called the TriboTube, which is a electrostatic precipitator that assists in removing oil and particulates from CO2 gas. Now Infinity is developing a solid state power generator, utilizing CO2.
Carbon Dioxide Unique Properties: CO2 is unique in that it goes supercritical (liquid to gas phase) at 31 C (88 F). Typical steam plants require 212 F and higher to generate steam to spin a turbine and generator to make power. Sandia Labs has experimented with CO2 and has identified it as the future working fluid of power plants, from it’s unique power density that results in smaller footprint power generation equipment. Using the Brayton Cycle, the CO2 gas is heated, and expanded over a turbine to spin a generator to make power. The cycle is like a jet engine, in that the working fluid stays as a gas. A standard fossil fuel power plant uses Rankine Cycle to make power - that is taking water, adding heat to make steam, then expanding that over a turbine to spin a generator to make power. The steam is then condensed back to water, and the process is repeated. The issues with these methods of generating power are that they use inherently expensive equipment, and require huge installations to get economies of scale (i.e. affordable power). What is needed is a scaleable solid state power generator, which is able to use the entire spectrum of heat range from low to high heat.
TriboGen: Infinity has developed a process to use the power dense CO2 in a closed-loop CO2 Rankine Cycle, to produce DC electricity. Because CO2 can do a phase change from liquid to gas at 31 C, it opens up low quality heat sources that can generate power. It is optimal for CO2 Rankine Cycle applications. Our system makes electricity from heated liquid 31 C and higher, which includes solar, hot geothermal, engine waste heat from stack and oil cooling, data centers, cloud server cooling, compressor, and industrial waste heat. TENG (Tribo Electric Generation). The process can also be used to power ESP (Electro Static Propulsion).
Power That’s Scalable: What’s unique about the Triboelectric effect that Infinity is developing, is that it can be used in a small nano or micro-channel application to generate IC chip power, or in a larger assembly to power a smartphone, house, or numbered up for distributed power generation. What is significant about this technology is the ability to access an utilize low grade heat, as low as 31 C.
Our modular experimental test system allows us to reconfigure tests quickly and scale them to commercial use.
Here is a snapshot of the technology:
- can use heat as low as 31 C (CO2 goes supercritical at 31C)
- requires the use of a compressor or pump (this is a Rankine cycle)
- the expanding CO2 can also be used for a rotating turbomachinery (to further expand power produced), but this requires a more complex
arrangement, which extends the solid-state turbine technology in original concept. Under this complex arrangement, complex bearings
will need to be used, and mechanism to drive generator developed (if externally driven generator), including, but not limited to high pressure shaft seals, which are not required in the solid-state turbine portion.
- the expanding CO2 cooling may be used for other technology (chiller, etc)
- the expanding CO2 can be used in a jet-pump (possible solid-state feedpump) but this has to be developed and tested
- the expanding CO2 can be used for electrostatic precipitation ESP
- technology can be made on small scale and then scaled up to any size
- technology can be used at point-of-use to utilize waste heat where it is produced on demand
- the static produced may used in a boiler or heat recovery unit to significantly enhance the evaporation of liquid to pressurized vapor.
- a rotary cavitation disc can be installed as a pressure reduction device to vaporize liquid to pressurized vapor (act as a compressor)
- technology can be used to excite coils wirelessly
- technology can be used with electronic switching to make what is effectively a solid state electrical generator
- technology can be used to charge a coil (rail gun, laser, etc.)
- technology can be used to produce a magnetic field
- technology can be used to produce a corona discharge, to UV purify water, or light welding, cutting, engraving, or additive 3D