Fluid Catalytic Cracking Operations

Topic I: Introduction to Fluid Catalytic Cracking – Describe the purpose and basic operation of a fluid catalytic cracking unit. – Define the following terms: conversion yield and catalyst. – Identify and describe the functions of the major pieces of equipment in a typical fluid catalytic cracking unit. – Explain how the principle of heat balance applies to cat cracker operation. Topic II: Catalysts and the Cracking Reaction – Explain the role of the catalyst in fluid catalytic cracking operations. – Define the terms selectivity and activity in relation to catalysts. – Describe the cracking reaction and explain how it can be controlled. – Define the terms over-cracking and severity. Topic III: Fluid Catalytic Cracking Reactors – Identify and describe the function of risers in a typical fluid catalytic cracking unit. – Describe the design and function of a typical fluid catalytic cracking unit reactor. – Explain the process of recovering spent catalyst from a reactor and describe the equipment that is typically used. Topic IV: Catalyst Regeneration – Identify the major parts of a typical fluid catalytic cracking unit regenerator and describe the function of each part. – Describe a typical process for handling the flue gas from cat cracking operations. – Define the following terms: dense phase dilute phase afterburning and snowballing. – Explain what the color of a regenerated catalyst sample typically indicates. Topic V: Fractionation – Identify the major pieces of equipment in a typical fractionation system and describe the basic operation of the system. – List the products typically obtained from a fluid catalytic cracking units fractionation system. Topic VI: Catalyst Circulation – Explain how catalyst circulation may be controlled. – Describe two conditions that may result from improper catalyst circulation. Topic VII: Process Variables – Define the term catalyst-to-oil ratio. – Describe how yield conversion severity catalyst-to-oil ratio and charge rate are related. – Describe how a change in product yield can affect other process variables.