Eley-Rideal (E-R) Kinetic Mechanism A(g) + B (g) → C(g) + D (g) B B B B B A r = k 04 Өв A KAPA r = kPB ³ (1+ KAPA) ➤ When Kд is very large, the slope of rate versus PB is the rate constant k ➤ When Kд is low, the slope of rate versus Pg equal to KдPÅk B

Assignment 1: derive the rate equation for the reaction based on Mars-van Krevelen Kinetic Mechanism and Eley-Rideal (E-R) Kinetic Mechanism

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Eley-Rideal (E-R) Kinetic Mechanism A(g) + B(g) → C(g) + D(g) B A B B B B C r= k0₁0B A r = KAPA (1 + KAPA) - крв' ➤When K is very large, the slope of rate versus PB is the rate constant k ➤When K is low, the slope of rate versus PB equal to KAPBK A

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● Mars-van Krevelen Kinetic Mechanism Step 1: A B Reactants adsorb onto different sites, and the two surface intermediates interact and reaction occurs. No site competition. Step 2: Example: Mars-van Krevelen Kinetic for CO oxidation over copper oxide and iron oxide Step 3: A B A B A + B → C CO + 2 CuO → Cu₂O + CO₂ Cu₂O + FeO 2CuO + Fe (12)O₂+ Fe FeO rco = k₁ Pco Ⓒ со r = K₂Po₂¹/² (1-0) CO + (½)O₂ → CO₂ Net reaction K₁ Pcok₂ Po₂¹/2² (1-0) = r co = k₁ k₂ Pco Po,1/2 k₁pco + k₂Po₂¹/2 = ¹1/2 k₂Po₂¹ K₂Po+k₂Po₂¹/2 At low CO/02, the rate reduces to k₁pco ➤ At high CO/O2, the rate reduces to k₂Po₂¹/2 11