From 2393d513b21b762506f6e2c2ce4b74cebd764d8b Mon Sep 17 00:00:00 2001 From: Isaac Leventon Date: Tue, 14 Nov 2023 10:28:41 -0500 Subject: [PATCH] Update matl_props README.md --- PMMA/Material_Properties/README.md | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/PMMA/Material_Properties/README.md b/PMMA/Material_Properties/README.md index 237ed00..07dc8e8 100644 --- a/PMMA/Material_Properties/README.md +++ b/PMMA/Material_Properties/README.md @@ -25,4 +25,4 @@ A pyrolysis model validation exercise has been identified to validate the accura ### Recommended material property sets In March 2023, the UMD Pyrolysis model (material properties defined in MaCFP\_PMMA\_2021\UMD.json) was identified as the most 'central' or 'average' model of those currently available. That is, this model yields predictions closest (sum of square errors) to mean gasification predictions. It is suggested that this parameter set by used by modelers for initial model setup (to provide a common set of parameters for MaCFP PMMA). It is NOT implied to be the most accurate property set. -In June 2023, [material property set(s) X] was/were identified as [the one / those] that most closely reproduce validation experiments of the [NIST-Gasification dataset](https://github.com/MaCFP/matl-db/tree/master/PMMA/Validation_Data). Provide further details in Table below; for each material property +In June 2023, the UMD Pyrolysis model (material properties defined in MaCFP\_PMMA\_2021\UMD.json) was identified as the one that most closely reproduces validation experiments of the [NIST-Gasification dataset](https://github.com/MaCFP/matl-db/tree/master/PMMA/Validation_Data). Provide further details in Table below; for each material property