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Cost of annual energy consume

 Cost of hydrocarbons industrially produced domestically and distribute from fossil carbons.    ( 1) C + H2O = CO + H2 - 176   KJ,  (2) 0.5 C + H2O = H2 + 0.5 CO2 - 90 KJ,  (3) CO + 2 H2 =CH2 + H2O + 226 KJ.  and totally,  1.5 C + H2O = CH2 + 0.5 CO2 - 40 KJ.  Supposing USD 12O /  ton C,    1.5 * 12 * 120 -+ 40 *4 / 3.6 = 2160 + 44 = 2200 / 14 = USD 157 / ton CH2.  Adding 100% for Capex, cost of hydrocarbons production with a good reserve would be about USD 300 / ton CH2.   Annual energy consumption for USA = 1.5 milliard toe (ton of oil equivalent) * USD 300 = 450 milliard dollar, at GDP 28 trillion dollar, or 1.6% of GDP satisfy annual energy consume. Correspondingly  for European Union  with  1.2 millliard toe at 29 trillion dollar GDP PPP, it is 1.25 % from GDP PPP.

AIChE 2025, Wind turbine, edition March 1-st, 2025.

About wind turbine of about 0.4 US cents / kWh.  Author : David Judbarovski, systems engineering, principle inventor, retired, CV in Linkedin.com, judbarovski@gmail.com, judbarovski.blogspot.com, davidjud.blogspot.com.   Abstract.   The cost of industrial production and the chemical processes also, depended on the cost of energy consumption. Over the years, from time to time, I have searched methods and devices to minimize maximally Capex and OPEX of renewable energy generators, solar and wind ones based on fundamental engineering - The smaller such generators, the lower the USD / kW and the USD / kWh cost compared with gigantic ones, which are an order of magnitude more expensive.  [1], [2]. [3]. Solar and wind 0.4 US cent / kWh, 5 years payback [1] is reachable, and being well scalable, it allows artificial fuels produced domestically and distribute, and carbon-neutral or half-green.   Such fuel will allow  (1) to reach energy i...

Cheap and zero carbon hydrocarbons production. Variant.

 Cheap and zero carbon hydrocarbons production. Variant.   Author : David Judbarovski, systems engineering, principle inventor, retired, CV in Linkedin.com, judbarovski@gmail.com, judbarovski.blogspot.com, davidjud.blogspot.com. Abstract.   Extremally cheap renewable energy can change a game in industry production, and in chemical industry in particular.  Solar and wind energy can be as cheap as 0.4 US cents / kWh , and being converted in cheap artificial fuels, it allows huge amounts of renewable energy to be integrated in national grids. the said thesis was shortly disclosed in [1], [2], [3]. and so on.  1)   C + H2O = CO + H2 – 179 KJ. If C = USD 120 /ton, CO + H2 = 12 * 120 + 179 * 4/ 3.6 = 1440 + 200 = 1640. (2)   CO + 2 H2 = CH2 (being abbreviature of hydrocarbons) + H2O + 226 KJ. 226 KJ is converted in electricity supposedly at 0.25 efficiency and by 2.5 US cents / kWh or more effective and more expensive, so 226 KJ is more than...

Cheap and zero carbon hydrocarbons production

Author : David Judbarovski, systems engineering, principle inventor, retired, CV in Linkedin.com, judbarovski@gmail.com, judbarovski.blogspot.com, davidjud.blogspot.com. Abstract.   Extremally cheap renewable energy can change a game in industry production, and in chemical industry in particular.  Solar and wind energy can be as cheap as 0.4 US cents / kWh , and being converted in cheap artificial fuels, it allows huge amounts of renewable energy to be integrated in national grids. the said thesis was shortly disclosed in [1], [2], [3]. and so on.  (1) 0.5 C + H2O = H2 +  0.5 CO2 - 90 kJ being Judbarovski process, its variant. (2) CO + 2 H2 = CH2 (abbreviature for hydrocarbons) + H2O + 226 kJ, can compensate a heat consume of reaction (1) 226 - 90 * 2 = 46 kJ * 4/ 3.6 = USD 50.0, or being converted in electricity sold at 25% efficiency and US cents 2.5 / kWh,  it gives (46,000/3.6) kWh * 0.25 * 0.025 = USD 80.0 being more transportable electricity. ...

For AIChE annual meeting, 2025. Cheap and carbon neutral CO production.

Cheap and carbon neutral carbon monoxide production.  Author : David Judbarovski, systems engineering, principle inventor, retired, CV in Linkedin.com, judbarovski@gmail.com, judbarovski.blogspot.com, davidjud.blogspot.com. Abstract.   Extremally cheap renewable energy can change a game in industry production, and in chemical industry in particular.  Solar and wind energy can be as cheap as 0.4 US cents / kWh , and being converted in cheap artificial fuels, it allows huge amounts of renewable energy to be integrated in national grids. the said thesis was shortly disclosed in [1], [2], [3]. and so on.  CO  being one of key materials for chemistry and artificial fuel production cheaply and  by ecofriendly way, it is as an example shown here just below.  See attentively. (1) C + H2 = CO + H2 - 176 kJ.  If C  = USD 120 / ton, so CO + H2 = ( 12 * 120 + 176 * 4 / 3.6 ) = USD 1640.  If at first stage CO is USD 50 / ton or more,  H2 is...

For AIChE annual conference, 2025. Wind turbine

 About wind turbine cheaper than 0.4 US cents / kWh.  Author : David Judbarovski, systems engineering, principle inventor, retired, CV in Linkedin.com, judbarovski@gmail.com, judbarovski.blogspot.com, davidjud.blogspot.com. Abstract.   A cost of industrial production and the chemical ones too, depended on a cost of energy consume for them. During years, time to time I search methods and devices to maximally cheapening of a Capex and OPEX of renewable energy generators, solar and wind ones based on fundamental engineering - The smaller such generators, the lower USD / kW and USD / kWh of them in comparison with gigantic ones being in order of magnitude more expensive.  [1], [2].  Small HAWTs are fixed to a rope being distributed on it. The said rope is fixed at down and stretched above by a balloon with a gas, is lighter than air.  Each HAWT is equipped by passive stabilizers.  The  HAWTs are rotated in opposite directions each to neighboring ...

About wind turbine of 0.4 US cents / kWh, edited on February, 2025.

 About wind turbine of 0.4 US cents / kWh.  Author : David Judbarovski, systems engineering, principle inventor, retired, CV in Linkedin.com, Judbarovski@gmail.com, judbarovski.blogspot.com, davidjud.blogspot.com. Abstract .   Small HAWTs are fixed to a rope distributed. The said rope is fixed at down and stretched above by a balloon with a gas, is lighter than air.  Each HAWT is equipped by simplest passive stabilizers. HAWTs are rotated in opposite directions each to neighboring ones to diminish the rope's loads. Being small, the said HAWTs in sum are lighter and cheaper in order of magnitude, by their cost can be negligible in comparison with total system, In its turn the lion share of the cost is the cost of its electric generators being about USD 100  / kW. So USD 120 / (5 years payback * 8000 hours) = 0.3 US cents /kWh ~= 0.4 cents /kWh with reserve. The system can be folded while lowering for treatment.