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SOA Partitioning with Pre-existing Particles: Size-independent? - Jun Liu

SIO 217 D. Yield Calculation: - reacted amount of ROG is 2000 micog /m -3 ; - Yield Calculated from Odum 1996 is 4.01%. Partitioning theory of Odum et al.:. SOA Partitioning with Pre-existing Particles: Size-independent? - Jun Liu. Key assumptions:

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SOA Partitioning with Pre-existing Particles: Size-independent? - Jun Liu

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  1. SIO 217 D Yield Calculation: -reacted amount of ROG is 2000 micog/m-3; -Yield Calculated from Odum 1996 is 4.01% Partitioning theory of Odum et al.: SOA Partitioning with Pre-existing Particles: Size-independent? -Jun Liu Key assumptions: -Preexisting aerosols has not effect on the Process. No nucleation; -M-xylene is the exclusive ROG; -Ignore all other process( transportanion etc.); -The partitioning has no mass dependence. Different from the condensation pattern we learned form class 1

  2. Further Study: Comparison to Condensation SIO 217 D Calculate the condensation scenario based on simplified assumptions: -Same amount of mass transported to the aerosols; -The amount of mass transferred is proportional to surface area; 2

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