+ 52.4×10² 5. Calcination of limestone - 15775 We charge the limestone (CaCO3) at 25°C, into an electrical heating furnace at 800°C, where the calcination is accomplished. The products are lime (CaO) and gas CO₂. How much electrical energy (kw-h) should be provided in order to produce 1000 kg CaO? (Ignore the heat loss due to radiation and convection) CaO(s) + CO₂(g) - CaCO3(s) CaCo3 C₂O + CO₂ = -177.8 kJ AH (48.83+4.52 x 10 T-6.53 10³ T2) J/mol K (44.14 +9.04 x 10³ T-8.54 x 10³ T) J/mol K x £(CaO)= &CO,)= answer: 1250 kw-h =1660+

Calcination of limestone We charge the limestone(CaCO3​)at25∘C, into an electrical heating furnace at800∘C, where the calcination is accomplished. The products are lime(CaO)and gasCO2​. How much electrical energy (kw h) should be provided in

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+52.4×10³ 5. Calcination of limestone 16775 We charge the limestone (CaCO3) at 25°C, into an electrical heating furnace at 800°C, where the calcination is accomplished. The products are lime (CaO) and gas CO₂. How much electrical energy (kw-h) should be provided in order to produce 1000 kg CaO? (Ignore the heat loss due to radiation and convection) CaO(s) + CO₂(g) = CaCO3(s) AH-177.8 kJ Cacos CaO + CO₂ £p(CaO)= ©(CO,)= answer: 1250 kw-h (48.83+4.52 x 10³ T-6.53 x 10³ T²) J/mol K (44.14 +9.04 x 10³ T-8.54 x 10³ T) J/mol K (01.8 kJ 1 = 1660 +241