Renewables-2017

Breakthrough cheap and green CH4 production and delivery, can be patented. You can join it. David Judbarovski, systems engineering, principle inventor, retired, judbarovski.blogspot.com, judbarovski@gmaii.com Abstract. CO2 + 4 H2 = CH4 + 2 H2O, Sabatier reaction. The reaction's heat can be transformed in electrsity can be sold and sufficiantly to cheapen the CH4. (a) CH4 = USD 34 / 1000 m3, at USD 150 /ton H2 See them in Breakthrough cheap and green hydrogen can change a game. judbarovski.blogspot.com/2025/08, posted on August 04, 2025; and CO2 mass production from the air very cheaply, judbarovski.blogspot.com/2025/01, posted on January 12, 2025; and CV-2023, davidjud.blogspot.com/2023/04, posted on April 27, 2023. I can recomMend big blimps (Airships with non-rigid walls) filled by CH4 being lighter than air simultaneously used as a propellant for the blimp to delive it closer to its consume.

Breakthrough cheap and green ammonia can change a game in hydrocarbon fuels production. Author: David Judbarovski, systems engineering, principle inventor, retired. judbarovski.blogspot.com, judbarovski@gmail.com. Abstract5 0.5 N2 + 1.5 H2 = NH3 - 46 kJ, H2 can be about USD 150/ton [1], NH3 = (3 * 150 - 46,000 * 0.3(effectivenes of heat in electricity) * 0.03(tariffs) /3.6 ) = 420 / 17 = USD 25 /ton NH3 OPEX. N2 is practically free, because each mol of NH3 burnt in the air, gives N2 for additional 7 moles NH3 productions by simplest and cheapest way instead of conventional high-tech huge monster and expensive creagenic technology for the same purpose. References. [1] Breakthrouh cheap and green hydrogen can change a game. judbarovski.blogspot.com/2025/08, posted on August 04, 2025. [2] CV-2023, davidjud.blogspot.com/2023/04, posted 27 April, 2023. judbarovski.blogspot.com/2023/04,

Breakthrough cheap and green hydrogen production can change a game in energy and chemistry and so on. Author: David Judbarovski, systems engineering, principle inventor, retired. judbarovski.blogspot.com, judbarovski@gmail.com. Abstract. USD 11.5 /ton CO, H2 is down to USD 150 /ton, and hydrocarbons of USD 6 / bbl. They are OPEX, and in order of magnitude cheapеr than prices of fossil fuels and can exploit existing infrostructure. (a) CO2 [1] + H2 = CO + H20 - 3 kJ negligible. CO2, CO and H2 are circular. If Q served for a cost, Q(CO) * 28 = Q(H) * 2, so Q(CO) = Q(H) / 14. (b) [2] CO + 1.5 H2O = CO2 + 1.5 H2 + 0.25 O2 + 146 kJ. 146 kJ = 146 * 4/ 3.6 [3],[4] = USD 161.0 /Mmol.. Really, 1.5 * 2 * Q(H) = Q(CO) * 28 + USD 161 = 2 * Q(H) + USD 161, so Q(H) = USD 161 /ton H2. Q(CO) * 28 = Q(H) * 2, so Q(CO) = Q(H)/14 = USD 11.5. QED ! CO2 + 3 H2 = CH2 + 2 H2O - 239 kJ. 239,000 * 0.3(efficiency heat in electricity) * 0.03(tariff) /3.6 = USD 600.0. So Q(CH2) = (44 * Q(CO2) + 3 * 2 * Q...

Green and cheap H2, CO, and hydrocarbons. Corrected on August 04, 2025. Author: David Judbarovski, systems engineering, principle inventor, retired. judbarovski.blogspot.com, judbarovski@gmail.com. Abstract Simplified technology promises USD 161/ton H2, USD 11.5 /ton CO, and hydrocarbons of USD 6 /bbl. They are OPEX, and in order of magnitude cheapеr than prices of fossil fuel and can use now existing infrastructure. (a) CO2 [1] + H2 = CO + H20 - 3 kJ negligible. Here everywhere CO2 is circular and free. A cost of H2O is negligible. If Q served for a cost, Q(CO) * 28 = Q(H) * 2, so Q(CO) = Q(H) / 14. (b) [2] CO + 1.5 H2O = CO2 + 1.5 H2 + 0.25 O2 + 146 kJ. 146 kJ = 146 * 4/ 3.6 [3], [4] = USD 161.0 /Mmol. 1.5 * 2 * Q(H) - 161 = Q(CO) * 28 = 2 Q(H). So Q(H) = USD 161 / ton H2. and CO = Q(H)/14 = USD 11.5 /ton CO. QED ! CO2 + 3 H2 = CH2 (hydrocarbons) + 2 H2O - 240 kJ. 240,000 * 0.3 (efficiency heat in electricity) * 0.03 (tariff) / 3.6 = USD 600 /Mmol So 14 * Q(CH2) = 5 * ...

CO2 reduction by H2 into hydrocarbon (CH2), symplified. Author: David Judbarovski, systems engineering, principle inventor, retired. judbarovski.blogspot.com, judbarovski@gmail.com Abstract. A chain of those four reactions allows at started USD cost 400 /ton H2 to turn it in 90 OPEX at the end CO practically free. Heat of exothermic reactions can be converted in electricity and sold, so drastically deminish a cost of H2, CO, and CH2 down to about 3.5 cent/liter. (1) CO2 + H2 = CO + H2O. (2) CO + 1.5 H2O = CO2 + 1.5 H2 + O.25 O2 (3) CO2 + 1.5 H2 + O.25 O2 = CO + 1.5 H2O. (4) CO + 1.5 H2O = CO2 + 1.5 H2 + 0.25 O2. Here, CO2 is free being a circular reagent. (5) CO + 2 H2 = CH2 + H2O, or CO2 + 3 H2 = CH2 + 2 H20. Reference. Really. [1] CO2 mass production from the air very cheaply, judbarovski.blogspot.com/2025/01, posted on 12 January, 2025. [2] Unusual chemistry promises green and incredile cheap CO, and H2 and hydrocarbon fuels. [3] Solar and Wind as cheap as 0.4 cent ...

CO2 reduction by H2 into CH2 practically free and distribute Author: David Judbarovski, systems engineering, principle inventor, retired. judbarovski.blogspot.com, judbarovski@gmail.com Abstract. . - CO2 + 3 H2 = CH2 + 2 H2O - 239 kJ. Gibbs criteria is negative in wide spectra of temperatures Here CO2 can be directly captured from the air [1] by less than 1144 kWh /ton CO2. H2 is down to USD 200 /ton H2 can be produced by three steps from the CO2 and the water. [2]. CO2 + 3 H2 = CH2 + 2 H2O - 239 kJ. (239 * 10^6 / 3600 sec.) kWh * 0.3 efficincy * 0.03 tariff = USD 600. CH2 = (1144 * 0.004 + 3 * 2 * 200 - 600) / 14 + 20% = USD 44 / ton CH2 = USD 6.3 /bbl = 4 cent / liter. . Energy for such technology was developed down to 0.4 cents /kWh [3], while its byproducted electricity can be sold to decrease OPEX. And totally, CH2 can be USD 6.3 /bbl and produced carbon negative and distribute. Really. [1] CO2 mass production from the air very cheaply, judbarovski.blogspot.com/2...