Related MCQs

• A reaction of first order takes 10 minutes to achieve 50% conversion. The conversion achieved after 20 minutes is ____
• For a first order liquid phase reaction occurring in a CSTR, the initial concentration is 10 ( frac{mol}{m^3} ) and the final concentration is 5 ( frac{mol}{m^3} ). If the residence time is 100 minutes, then the value of reaction rate is ____
• A liquid phase reaction occurring in a CSTR follows first order dynamics. The feed rate is 500m³/min. Initial concentration of the feed is 50mol/m³. If the reaction conversion is 50% and the reaction is carried out in a 0.5 m³ CSTR, what is the value of rate constant?
• The present CSTR is replaced by another CSTR of double the volume. A first order liquid phase reaction occurs in both the reactors. If the conversion achieved in the old reactor is 75%, what is the conversion achieved in the new reactor?
• A second order reaction occurs in a CSTR. Determine the ratio of volumes required for 45% conversion to 90% conversion, provided initial concentration, flow rate and other parameters are constant.
• The residence time (in min) for the reactants at a flow rate of 5 ( frac{litre}{min} ) inside a reactor of volume 10 litre is ____
• For a first order reaction, if the rate constant is 1 min^-1 and the reaction time is 2 min, then the ratio of final to initial concentration is ____
• State true or false.<br>For a first order reaction, the conversion of the reaction is a function of C_A0.
• State true or false.<br>For pure gaseous reactants, the best reactor suited for carrying out reaction is CSTR.
• If the rate of a reaction is given as (-r_A) = ( frac{k_1+C_A^2}{k_2 C_A} frac{mol}{m^3 min} ), then the units of k₁ and k₂ respectively are ____