JNTUK B.Tech Chemical Reaction Engineering Lab gives you detail information of Chemical Reaction Engineering Lab R13 syllabus It will be help full to understand you complete curriculum of the year.
Learning Objectives
- To determine the order of reaction and rate constant using batch reactor, CSTR, and PFR and analyze the data by differential and integral methods.
- To determine the activation energy and specific reaction rate constant of a reaction of a known order using a batch reactor.
- To determine the rate constant and to study the effect of residence time on conversion in CSTR and PFR.
- To compare the experimental and theoretical values for space times and volumes of reactors when CSTR in series.
- To determine the RTD and dispersion number for packed bed and tubular reactors using tracer.
Experiments
- Determination of the order of a reaction using a batch reactor and analyzing the data by (a) differential method (b) integral method.
- Determination of the activation energy of a reaction using a batch reactor.
- To determine the effect of residence time on conversion and to determine the rate constant using a CSTR.
- To determine the specific reaction rate constant of a reaction of a known order using a batch reactor.
- To determine the order of the reaction and the rate constant using a tubular reactor.
- CSTRs in series- comparison of experimental and theoretical values for space times and volumes of reactors.
- Mass transfer with chemical reaction (solid-liquid system) –determination of mass transfer coefficient.
- Axial mixing in a packed bed. Determination of RTD and dispersion number for a packed-bed using tracer and Determination of RTD and dispersion number in a tubular reactor using a tracer.
Outcomes: The students will be able to
- Design experiments for the determination of the order of the reaction and reaction rate constant for new reaction systems by using batch, CSTR and PFR.
- Analyze and interpret the given reaction data by using various methods.
- Calculate the effect of flow rate; reactants on conversion in reactors (CSTR/PFR) in series.
- Distinguish the effect of residence time on conversion in CSTR and PFR.
- Use the experimental kinetic data for reactor design.
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