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Gas to Liquids technology using CO2 to make Alcohol

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$150,000 CO2 Phase Change Demonstrator: CO2 goes supercritical at 30 C. This is a experimental platform which you can use to demonstrate phase change with low heat. Includes integration area for small CO2 turbine, static generator, etc. This can also be used for a GTL Gas to Liquids experimental platform. More Info

IT50: 50 kW ORC system plans or complete system. More Info

Strategy and Consulting Services: System sizing, ORC payback, renewable energy strategy, PID diagrams. More Info

$10,000 Turbine and System Plans: Special for this month, any plans are $10,000 for complete Cad/Cam blueprints. License is for one build. Try before you buy a production license. More Info

Technology: Experiment with gas to liquids (CO2 to alcohol) using Nafion and our phase change demonstrator cart (we can ship worldwide). More Info

CO2 GTL Gas to Liquids Experimental Platform Experiment with gas to liquids (CO2 to alcohol) using Nafion and our phase change demonstrator cart (we can ship worldwide). CO2 goes supercritical at 31 C. This is a experimental platform which you can use to demonstrate phase change with low heat. Includes integration area for small CO2 turbine, static generator, Nafion pellets, Nafion membrate, or Nafion tubes. More Info

CO2 + H2O + DC Electricity + Nafion = Plastics and Fuel Gas to Liquids Developers and Experimenters System Cart... More Info

HydroDynamic Cavitation: Use our modular block technology and water to make Silver Nanoparticles and even use for hemp oil extraction. More Info

All Turbine and System Products: Infinity Turbine systems and turbine generator set products and plans including rotating and solid state platforms. More Info

Email: greg@infinityturbine.com

TEL: 608-238-6001

Infinity Turbine GTL Gas to Liquids Experimental Platform Using Reverse Fuel Cell (electrolizer)

Infinity Turbine GTL Gas to Liquids Experimental Platform Using Reverse Fuel Cell (electrolizer)

Infinity Turbine GTL Gas to Liquids Module for converting CO2 to fuels and plastics

Infinity Turbine GTL Gas to Liquids Module for converting CO2 to fuels and plastics

Infinity Turbine GTL Module $150,000 Experimenters Platform

Inputs: CO2, H20, DC electricity, and Nafion or other membrane catalysts. Infinity Turbine GTL Module $150,000 (pdf datasheet)

Side View of Infinity Turbine GTL Gas to Liquids Experimental Platform Using Reverse Fuel Cell (electrolizer)

Side View of Infinity Turbine GTL Gas to Liquids Experimental Platform Using Reverse Fuel Cell (electrolizer)

GTL gas to liquids processor module taking CO2, water and electricity to make fuels

GTL gas to liquids processor module taking CO2, water and electricity to make fuels

CO2 to Fuels Experimental Developer Platform Processor

The purpose of this platform is to provide experimentation and development of novel gas to liquids (GTL) technologies for the utilization and mitigation of carbon dioxide.

Infinity is now providing experimental platforms for developing modular cart mounted GTL (gas to liquids) fuel processing from CO2. Using Nafion or similar catalysts (available in sheets, tubes, pellets, and more), the inputs are CO2, water, and electricity to make alcohol (ethanol, methanol, and butanol). The selectivity of the output will depend on your formula for the inputs and catalyst.

The Infinity GTL Processor allows you to adjust the flow of CO2, water, and electricity. The platform also allows you to incorporate and modulate in-situ power production, static electricity generation (SEG), and other unique functions.

The processor platform is available in a completed cart or parts in kit form for developers who want to configure their own system. Gas to Liquids Processor Module (pdf)

GTL gas to liquids modular processor taking CO2, water and electricity to make fuels

GTL gas to liquids modular processor taking CO2, water and electricity to make fuels

CO2 gas to liquids processor

CO2 gas to liquids processor

CO2 to Alcohol Experimental Developer Platform Processor

The purpose of this platform is to provide experimentation and development of novel gas to liquids (GTL) technologies for the utilization and mitigation of carbon dioxide.

Infinity is now providing experimental platforms for developing modular cart mounted GTL (gas to liquids) fuel processing from CO2. Using Nafion or similar catalysts (available in sheets, tubes, pellets, and more), the inputs are CO2, water, and electricity to make alcohol (ethanol, methanol, and butanol). The selectivity of the output will depend on your formula for the inputs and catalyst.

The Infinity GTL Processor allows you to adjust the flow of CO2, water, and electricity. The platform also allows you to incorporate and modulate in-situ power production, static electricity generation (SEG), and other unique functions.

The processor platform is available in a completed cart, or parts (kit form) for developers who want to configure their own system.

Concept

The concept of a modular GTL processor is to provide a rapid configurable platform to perform experiments and development to advance gas to liquids processing.

This is accomplished by providing a standard catalyst module which can be easily adjusted (mechanically and flow).

The functionality is further enhanced by optional add-ons to incorporate in-situ power production and catalyst tuning using static electricity.

The platform is bolted together with standardized fasteners and can easily be modified.

Parameters

Catalyst: Nafion and other catalysts can be tested or developed for best output.

Electricity: Volts, amps, and frequency can be adjusted for production tuning.

CO2 and Water: Flow, pressure, and temperature can be adjusted.

Rotational Device: Cavitation and other devices can be incorporated into the system.

Instrumentation: Sensors allow real-time processor monitoring and data capture.

Advantages

The biggest advantage of a modular processor platform is time savings from a standardized configuration which allows the user to implement rapid changes on the fly.

Components are accessible and the stainless steel tubing can easily be cleaned.

Instumentation can be extended to wireless monitoring using a smartphone or tablet.

The system can be configured to run remotely.

The caster mounted cart is made from heavy duty powder coated beam construction.

#gtl, #gastoliquids, #co2, #carbondioxide, #co2tofuels, #greenchemistry, #xprize Gas to Liquids Processor System (pdf)

Supercritical CO2 can treat Nafion for Direct Methanol Fuel Cells

Supercritical CO2 can treat Nafion for Direct Methanol Fuel Cells

Supercritical CO2 to treat Nafion for Direct Methanol Fuel Cells

Supercritical carbon dioxide treatment was used to enhance performance of NR212. The microstructure of NR212 membranes was reorganized after the Sc-CO2 treatment. The treated NR212 membranes showed higher proton conductivity than Nafion 117. The treated NR212 membranes showed lower methanol permeability than Nafion 117. Direct Methanol Fuel Cell (DMFC) performance of the treated NR212 membranes was better than Nafion 117 (2012). The Nafion-grafted-polystyrene sulfonic acid (N-g-pssa) exhibits higher ion conductivity and lower methanol permeability than that of Nafion 115. The N-g-pssa membranes are tested as electrolytes in a direct methanol fuel cell. Compared with the as-received NR212 membranes, all the Sc-CO2 treated NR212 membranes show higher proton conductivity and better capacity of barrier to methanol crossover. From Fenton test, it can be found that the Sc-CO2 treated NR212 membranes have better chemical stability than that of NR212 membranes. Therefore, NR212 membranes treated by the Sc-CO2 method may be promising candidate electrolytes for DMFC applications (2020).

Email: Investor for Reverse Fuel Cell CO2 to Alcohol Questions

Innovative Reverse Fuel Cell Converts Waste CO2 Into Valuable Chemicals 10x Faster (note: Infinity did this in 2004)

XPrize for Carbon Removal

CONTACT TEL: 608-238-6001 Email: greg@infinityturbine.com RSS