SYSTEMS FOR PRODUCING CHEMICALS AND FUELS HAVING AN OPTIMIZED CARBON FOOTPRINT

Chemical production systems which allow for an optimized carbon footprint are presented. Plasma-based reforming systems may provide a viable alternative to standard chemical production techniques, such systems can reduce the carbon footprint of the chemicals produced. Example systems include the pro...

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Hauptverfasser:	WHITLOW, Jonathan, TRAN, Kim-Chinh, BROMBERG, Leslie, OWEN, Jorj
Format:	Patent
Sprache:	eng ; fre
Schlagworte:	BLASTING CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTINGELECTRIC POWER CONVERSION OR DISTRIBUTION OF ELECTRIC POWER ELECTRICITY GENERATION HEATING LIGHTING LIGHTING DEVICES OR SYSTEMS THEREOF, BEING PORTABLE ORSPECIALLY ADAPTED FOR TRANSPORTATION MECHANICAL ENGINEERING SYSTEMS FOR STORING ELECTRIC ENERGY WEAPONS
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creator	WHITLOW, Jonathan TRAN, Kim-Chinh BROMBERG, Leslie OWEN, Jorj
description	Chemical production systems which allow for an optimized carbon footprint are presented. Plasma-based reforming systems may provide a viable alternative to standard chemical production techniques, such systems can reduce the carbon footprint of the chemicals produced. Example systems include the production of synthesis gas (syngas), hydrogen, synthetic hydrocarbon fuels, ammonia, and urea. Reducing the carbon footprint of chemicals such as these is of vital importance to reducing the environmental impact of industries such as transportation and agriculture. In many of the embodiments a secondary product is produced, the sale of this secondary product may make the primary low-carbon footprint chemical more economical. In many cases the secondary product is carbon, methods of sequestering this carbon via reverse mining and enhanced oil and gas recovery are presented. L'invention concerne des systèmes de production chimique qui permettent une empreinte carbone optimisée. Les systèmes de reformage à base de plasma peuvent constituer une alternative viable aux techniques de production chimique ordinaires, de tels systèmes pouvant réduire l'empreinte carbone des produits chimiques produits. Des systèmes illustratifs incluent la production de gaz synthétique, d'hydrogène, de combustibles hydrocarbures synthétiques, d'ammoniac, et d'urée. La réduction de l'empreinte carbone de tels produits chimiques est d'une importance vitale pour la réduction de l'impact environnemental d'industries comme le transport et l'agriculture. Dans bon nombre des modes de réalisation, un produit secondaire est produit, la vente de ce produit secondaire pouvant rendre le produit chimique à faible empreinte carbone primaire plus économique. Dans bon nombre de cas, le produit secondaire est le carbone. L'invention concerne également des procédés destinés à séquestrer le carbone par minage inversé et récupération renforcée d'huile et de gaz.
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Les systèmes de reformage à base de plasma peuvent constituer une alternative viable aux techniques de production chimique ordinaires, de tels systèmes pouvant réduire l'empreinte carbone des produits chimiques produits. Des systèmes illustratifs incluent la production de gaz synthétique, d'hydrogène, de combustibles hydrocarbures synthétiques, d'ammoniac, et d'urée. La réduction de l'empreinte carbone de tels produits chimiques est d'une importance vitale pour la réduction de l'impact environnemental d'industries comme le transport et l'agriculture. Dans bon nombre des modes de réalisation, un produit secondaire est produit, la vente de ce produit secondaire pouvant rendre le produit chimique à faible empreinte carbone primaire plus économique. Dans bon nombre de cas, le produit secondaire est le carbone. 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Plasma-based reforming systems may provide a viable alternative to standard chemical production techniques, such systems can reduce the carbon footprint of the chemicals produced. Example systems include the production of synthesis gas (syngas), hydrogen, synthetic hydrocarbon fuels, ammonia, and urea. Reducing the carbon footprint of chemicals such as these is of vital importance to reducing the environmental impact of industries such as transportation and agriculture. In many of the embodiments a secondary product is produced, the sale of this secondary product may make the primary low-carbon footprint chemical more economical. In many cases the secondary product is carbon, methods of sequestering this carbon via reverse mining and enhanced oil and gas recovery are presented. L'invention concerne des systèmes de production chimique qui permettent une empreinte carbone optimisée. Les systèmes de reformage à base de plasma peuvent constituer une alternative viable aux techniques de production chimique ordinaires, de tels systèmes pouvant réduire l'empreinte carbone des produits chimiques produits. Des systèmes illustratifs incluent la production de gaz synthétique, d'hydrogène, de combustibles hydrocarbures synthétiques, d'ammoniac, et d'urée. La réduction de l'empreinte carbone de tels produits chimiques est d'une importance vitale pour la réduction de l'impact environnemental d'industries comme le transport et l'agriculture. Dans bon nombre des modes de réalisation, un produit secondaire est produit, la vente de ce produit secondaire pouvant rendre le produit chimique à faible empreinte carbone primaire plus économique. Dans bon nombre de cas, le produit secondaire est le carbone. 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subjects	BLASTING CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTINGELECTRIC POWER CONVERSION OR DISTRIBUTION OF ELECTRIC POWER ELECTRICITY GENERATION HEATING LIGHTING LIGHTING DEVICES OR SYSTEMS THEREOF, BEING PORTABLE ORSPECIALLY ADAPTED FOR TRANSPORTATION MECHANICAL ENGINEERING SYSTEMS FOR STORING ELECTRIC ENERGY WEAPONS
title	SYSTEMS FOR PRODUCING CHEMICALS AND FUELS HAVING AN OPTIMIZED CARBON FOOTPRINT
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