HTAP provided a table of VOC speciation for each sector and several global regions to produce 25 VOCs (at https://edgar.jrc.ec.europa.eu/dataset_htap_v3#p3).
I combined/split those VOCs to make MOZART species:
CH3OH = 0.15voc1
C2H5OH = 0.85voc1
C2H6 = voc2
C3H8 = voc3
BIGALK = voc4+voc5+voc6+voc18+voc19
C2H4 = voc7
C3H6 = voc8
C2H2 = voc9
ISOP = voc10
MTERP = voc11
BIGENE = voc12
BENZENE = voc13
TOLUENE = voc14
XYLENES = voc15+voc16+voc17
CH3CL = voc20
CH2O = voc21
CH3CHO = voc22
CH3COCH3 = 0.2voc23
MEK = 0.8voc23
HCOOH = 0.5voc24
CH3COOH = 0.5voc24
And created a new speciation table: https://drive.google.com/file/d/1IY7aor-o2iIuaT6MhYxwvpooHSqPOnDI/view?usp=drive_link
to be used to directly create the MOZART species from the provided total NMVOC.
HTAP provided a table of VOC speciation for each sector and several global regions to produce 25 VOCs (at https://edgar.jrc.ec.europa.eu/dataset_htap_v3#p3).
I combined/split those VOCs to make MOZART species:
CH3OH = 0.15voc1
C2H5OH = 0.85voc1
C2H6 = voc2
C3H8 = voc3
BIGALK = voc4+voc5+voc6+voc18+voc19
C2H4 = voc7
C3H6 = voc8
C2H2 = voc9
ISOP = voc10
MTERP = voc11
BIGENE = voc12
BENZENE = voc13
TOLUENE = voc14
XYLENES = voc15+voc16+voc17
CH3CL = voc20
CH2O = voc21
CH3CHO = voc22
CH3COCH3 = 0.2voc23
MEK = 0.8voc23
HCOOH = 0.5voc24
CH3COOH = 0.5voc24
And created a new speciation table: https://drive.google.com/file/d/1IY7aor-o2iIuaT6MhYxwvpooHSqPOnDI/view?usp=drive_link
to be used to directly create the MOZART species from the provided total NMVOC.