Renewables-2017

Rehab of solar thermal power stations. Here being about 0.5 cent per kWh electricity Author: David Judbarovski, systems engineering, principle inventor. retired.  judbarovski.blogspot.com, judbarovski@gmail.com  Abstract  Small heating units  are unusual and  c omprises three thin sheet mirrors each. Planar one redirects solar flux onto motionless solar concentrator about 1 m2 with motionless focal spot, and father third tiny mirror in the focal spot redirects on motionless tube with heat carrier at the end with two tanks' known high temperature heat storage system. Such small heating units can be about USD 25 / m2 each and 5 years payback and serves to convert the heat into artificial fuels. 500 cent /( 2500 * 0.4) = 0.5 cent /kWh electricity. Q.E.D.

  Eric Dahlgren, PhD, CEO,    Mr. Kristian Tuszynski, CTO, Dr. Klaus Lackner, Senior Science Advisor,  Aircela, USA, https://www.aircela.com.  Date: June 01, 2025.  Dear gentlemen!  Can I suppose that your excellent machine to produce fossil-free, motor  grade fuels, ready for any engine, can be sufficiently cheapened if you would adopt some ideas used in my design for the same purpose.  (1)   Direct CO2 capture from the air by KOH gives CO2  being more than USD 60 / ton, because potassium-ion leakage, even if the leakage being 1 % in each step of its cycle. My way is traditional Ca(OH)2 with about USD 5 / ton CO2, see   CO2 mass production from the air very cheaply, judbarovski.blogspot.com/2025/01. posted on 12.01.2025. and  (2) S olar and Wind as cheap  0.4 US cents / kWh can change a game, judbarovski.blogspot.com/2025/02. posted on February 11, 2025 , and I have used half green   0.5 C + H20 = H2 +...

   Green and incredible cheap (USD 6.0 /bbl OPEX)  fuels (hydrocarbons) production.-  Upgrade Author: David Judbarovski, systems engineering, principle inventor. retired.  judbarovski.blogspot.com, judbarovski@gmail.com  Abstract.   Technological chain offered here allows integration of huge solar thermal energy in national grid, by green fuel, synthetized distribute and domestically from atmospheric CO2 and ammonia, the both can be  breakthrough cheap and based on original inventions well scalable. and allows hazard free and reliable energy supply.     (1) 2 NH3 + CO2 extracted from the air = CH2 hydrocarbons + 2 H2O + N2 + 137 KJ into electricity for sale., Here Gibbs free energy is negative. (2) 0.5 C + H2O =  0.5 CO2 exhaust + H2 - 90 KJ.  [2], (3)   NH3 being incredible  cheap (USD 22.0 / ton NH3), you can see in [3]   (4)  CO2 of about USD 5 / ton CO2 can be extracted from the air by com...

 Half green and incredibly cheap ammonia simplified production.  Author: David Judbarovski, systems engineering, principle inventor. retired.  judbarovski.blogspot.com, judbarovski@gmail.com  Abstract.  (1) 0.5 C + H2O = H2 + 0.5 CO2 - 90 KJ. (2) Air 0.75 (O2+ 4 N2) + NH3 = 1.5 H2O + 3.5 N2 + 383 KJ can be converted in electricity for sale or to support reaction (1)..  (3) 0.5 N2 + 1.5 H2 = NH3 + 46 KJ can be converted into electricity for sale or to support reaction (1) NH3 cost OPEX would be 360 * 3 -  (383 + 46 - 90) * 1,000 * 0.25 * 0.03 /3.6  = USD 22.0 / ton NH3,  Q.E.D.  Really,  if C being USD 120 / ton, H2 = USD 360, and if electricity tariff being USD 0.03 /kWh and efficiency 0.25, H2 = USD 360 / ton H2 by (1) ,  and such H2 is much cheaper than  reformed traditionally from CH2 or CH4 by the water vapor in ammonia industry, while  multiplied N2 by (2) is negligible and much simpler technology than cryogenic ...

  Green fuel production by incredibly cheap ammonia and solar thermal energy.  Author: David Judbarovski, systems engineering, principle inventor. retired.  judbarovski.blogspot.com, judbarovski@gmail.com  Abstract.    Technological chain offered here allows integration of huge solar thermal energy in national grid, by green fuel, synthetized distribute and domestically from atmospheric CO2 and ammonia, the both can be  breakthrough cheap and based on original inventions well scalable. allows hazard free and reliable energy supply.     (1) 2 NH3 + CO2 extracted from the air = CH2 hydrocarbons + 2 H2O + N2 + 179 KJ into electricity for sale., (2) 0.5 C + H2O =  0.5 CO2 exhaust + H2 - 90 KJ.  Such H2 is USD 400 / t H2, so much cheaper than reformed traditionally from CH2 or CH4 by the water vapor in ammonia industry. (3) The air + NH3 = 1.5 H2O + 3.5 N2 instead of cryogenic monster for N2 production.  (4) 0.5 N2 + 1.5 H2 = NH3 + ...

 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 milliard toe at 29 trillion dollar GDP PPP, it is 1.25 % from GDP PPP.