Ill. Admin. Code tit. 35, § 291.206
b) Facilities utilizing the models mentioned in subsection (a) to perform the attainment and maintenance analyses do not need to submit a description of the dispersion and plume rise formulae utilized. If a facility chooses to use dispersion models and plume rise formulae other than those listed above, then the following information shall be submitted to the Agency in support of the techniques which are selected:
c) Annual Analysis. The basic objective of the annual dispersion analysis is to determine the maximum ground-level concentrations of sulfur dioxide and total suspended particulate for comparison with annual air quality standards.
d) Short-Term Analysis. For short term analyses, ground-level concentrations should be determined for periods of time associated with those meterorological conditions giving rise to maximum ground-level concentrations, considering the actual physical stack height and diameter and operating characteristics of the facilities.
g) There are several meteorological situations which might cause sufficiently elevated ground-level concentrations to threaten the short-term ambient air quality standards. The following potentially adverse meteorological or physical conditions shall be considered as a minimum when performing the short-term modeling analyses:
1) Trapping conditions (for comparison with the 3-hour SO2 standard and the 24-hour SO2 and TSP standard).
2) Neutral stability with moderate to high winds (for comparison with the 3-hour SO(2) standard and the 24-hour SO2 and TSP standard).
3) Inversion break-up fumigation (for comparison with the 3-hour SO2 standard).
5) If meteorological information specific to the subject facility is available, then such data may be used to modify the procedures outlined in subsection (g)(1)-(4), as appropriate. However, such meteorological information must have been collected:
h) The minimum requirement for model validation shall be the computation of a regression equaltion (linear, stepwise or non-linear, as appropriate) for observed concentrations vs. the concentrations calculated by the dispersion model (plus background).