Solar Brick Production: Difference between revisions
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*0.4 kWhr/kg in 2050 [https://www.zi-online.info/en/artikel/zi_The_electric_tunnel_kiln_challenge_heat_transfer-3464349.html#:~:text=A%20roofing%20tile%2C%20a%20backing,product%20and%20is%20heated%20electrically.] | *0.4 kWhr/kg in 2050 [https://www.zi-online.info/en/artikel/zi_The_electric_tunnel_kiln_challenge_heat_transfer-3464349.html#:~:text=A%20roofing%20tile%2C%20a%20backing,product%20and%20is%20heated%20electrically.] | ||
*Current standard is about 0.6 kilowatt hours per kilogram [https://www.google.com/amp/s/www.oldforgecreations.co.uk/blog/kiln-efficiency%3fformat=amp] | *Current standard is about 0.6 kilowatt hours per kilogram [https://www.google.com/amp/s/www.oldforgecreations.co.uk/blog/kiln-efficiency%3fformat=amp] | ||
*50kW pV gets 400 | *50kW pV gets 400 bricks per day | ||
*Unstabilizes CEB is worth it, after that, it is useful to do fired brick for water resistance. Not. Cement is 1.5 kWhr/kg (5.6 MJ/kg?)- at 10% stabilization, we have CEBs at 150 whr/kg | *Unstabilizes CEB is worth it, after that, it is useful to do fired brick for water resistance. Not. Cement is 1.5 kWhr/kg (5.6 MJ/kg?)- at 10% stabilization, we have CEBs at 150 whr/kg | ||
Revision as of 11:32, 1 June 2024
- 0.4 kWhr/kg in 2050 [1]
- Current standard is about 0.6 kilowatt hours per kilogram [2]
- 50kW pV gets 400 bricks per day
- Unstabilizes CEB is worth it, after that, it is useful to do fired brick for water resistance. Not. Cement is 1.5 kWhr/kg (5.6 MJ/kg?)- at 10% stabilization, we have CEBs at 150 whr/kg