Styrene

C₈H₈ (C₆H₅CH=CH₂)  ·  104.15 g/mol

C₈H₈ (C₆H₅CH=CH₂)

Monomer for polystyrene and styrenic copolymers

Molecular Weight
104.15 g/mol
State
Liquid
Catalyst
Iron oxide promoted with
Reactor
Adiabatic radial flow re
Styrene molecular structure
2D structure

Olefinverbund Integration

Product
Styrene
Outputs
Polystyrene, Synthetic Rubber, ABS

Chemistry & Engineering

ReactionC₆H₅C₂H₅ → C₆H₅C₂H₃ + H₂
ThermodynamicsHighly endothermic (ΔH = +125 kJ/mol)
CatalystIron oxide promoted with Potassium (Fe2O3-K2CO3)
Reactor classAdiabatic radial flow reactors in series with interstage heating (steam superheating)
NoteVacuum operation favored to shift equilibrium. Steam prevents coking and supplies heat.

Applications

  • Polystyrene (packaging, insulation)
  • ABS and SAN plastics
  • Styrene-butadiene rubber
  • Unsaturated polyester resins

Extraterrestrial Production Pattern

  1. Alkylation of benzene with ethylene → ethylbenzene
  2. Catalytic dehydrogenation at 600-650°C over Fe₂O₃/K₂O catalyst
  3. Steam dilution to shift equilibrium and prevent coking
  4. Vacuum distillation with polymerization inhibitor

Reaction Diagram

C6H5C2H5 -> C6H5CH=CH2 + H2

Unit Operations

Process steps following chemical engineering unit operation principles

#OperationDescription
1Ethylbenzene PreheatHeat EB feed to 550°C with steam
2DehydrogenationAdiabatic reactor with Fe₂O₃/K₂O catalyst
3Heat RecoveryCool effluent against feed
4CondensationCondense styrene and separate from H₂
5Vacuum DistillationDistill at 50-100 mbar to avoid polymerization
6Inhibitor AdditionAdd TBC inhibitor for storage stability

S88 Batch Control Model

ISA-88 BatchML schema — simplified for educational purposes

<?xml version="1.0" encoding="UTF-8"?>
<!-- ISA-88 Batch Control Model for Styrene -->
<!-- Educational schema - simplified for demonstration -->
<BatchML xmlns="http://www.wbf.org/xml/B2MML-V0600">
  
  <ProcessCell ID="STYRENE_PLANT_CELL">
    <Description>Process cell for Styrene production</Description>
    
    <Unit ID="STYRENE_PLANT">
      <Description>Main synthesis unit</Description>
      
      <!-- Equipment Modules -->
      <EquipmentModule ID="PREHEATER">
        <Description>Preheater</Description>
      </EquipmentModule>
      <EquipmentModule ID="REACTOR">
        <Description>Reactor</Description>
      </EquipmentModule>
      <EquipmentModule ID="EXCHANGER">
        <Description>Exchanger</Description>
      </EquipmentModule>
      <EquipmentModule ID="CONDENSER">
        <Description>Condenser</Description>
      </EquipmentModule>
      <EquipmentModule ID="VACUUM_COLUMN">
        <Description>Vacuum Column</Description>
      </EquipmentModule>
      <EquipmentModule ID="INHIBITOR_SYSTEM">
        <Description>Inhibitor System</Description>
      </EquipmentModule>
    </Unit>
  </ProcessCell>
  
  <MasterRecipe ID="STYRENE_PLANT_RECIPE">
    <Description>Master recipe for Styrene</Description>
    <ProductID>STYRENE</ProductID>
    
    <UnitProcedure ID="STYRENE_PLANT_UP">
      <Description>Unit procedure for synthesis</Description>
      
      <Operation ID="OP_01">
        <Description>Operation 1</Description>
        <Phase ID="PREHEAT">
          <Description>Preheat phase</Description>
          <PhaseLogic>
            <Step ID="STEP_1"><Action>Initialize</Action></Step>
            <Step ID="STEP_2"><Action>Execute</Action></Step>
            <Step ID="STEP_3"><Action>Complete</Action></Step>
          </PhaseLogic>
        </Phase>
      </Operation>
      
      <Operation ID="OP_02">
        <Description>Operation 2</Description>
        <Phase ID="DEHYDROGENATE">
          <Description>Dehydrogenate phase</Description>
          <PhaseLogic>
            <Step ID="STEP_1"><Action>Initialize</Action></Step>
            <Step ID="STEP_2"><Action>Execute</Action></Step>
            <Step ID="STEP_3"><Action>Complete</Action></Step>
          </PhaseLogic>
        </Phase>
      </Operation>
      
      <Operation ID="OP_03">
        <Description>Operation 3</Description>
        <Phase ID="RECOVER_HEAT">
          <Description>Recover Heat phase</Description>
          <PhaseLogic>
            <Step ID="STEP_1"><Action>Initialize</Action></Step>
            <Step ID="STEP_2"><Action>Execute</Action></Step>
            <Step ID="STEP_3"><Action>Complete</Action></Step>
          </PhaseLogic>
        </Phase>
      </Operation>
      
      <Operation ID="OP_04">
        <Description>Operation 4</Description>
        <Phase ID="CONDENSE">
          <Description>Condense phase</Description>
          <PhaseLogic>
            <Step ID="STEP_1"><Action>Initialize</Action></Step>
            <Step ID="STEP_2"><Action>Execute</Action></Step>
            <Step ID="STEP_3"><Action>Complete</Action></Step>
          </PhaseLogic>
        </Phase>
      </Operation>
      
      <Operation ID="OP_05">
        <Description>Operation 5</Description>
        <Phase ID="DISTILL">
          <Description>Distill phase</Description>
          <PhaseLogic>
            <Step ID="STEP_1"><Action>Initialize</Action></Step>
            <Step ID="STEP_2"><Action>Execute</Action></Step>
            <Step ID="STEP_3"><Action>Complete</Action></Step>
          </PhaseLogic>
        </Phase>
      </Operation>
      
      <Operation ID="OP_06">
        <Description>Operation 6</Description>
        <Phase ID="STABILIZE">
          <Description>Stabilize phase</Description>
          <PhaseLogic>
            <Step ID="STEP_1"><Action>Initialize</Action></Step>
            <Step ID="STEP_2"><Action>Execute</Action></Step>
            <Step ID="STEP_3"><Action>Complete</Action></Step>
          </PhaseLogic>
        </Phase>
      </Operation>
    </UnitProcedure>
  </MasterRecipe>
  
</BatchML>
Process CellPhysical grouping of all production equipment
UnitMajor equipment performing the synthesis
Equipment ModulesIndividual devices: reactors, columns, absorbers
PhasesLowest control level: REACT, SEPARATE, PURIFY

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