Difference between revisions of "Understanding rainfall statistics"
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==Example: City of Barrie, using years 2015 to 2017== | ==Example: City of Barrie, using years 2015 to 2017== | ||
Daily rainfall records from ''BARRIE LANDFILL'' were obtained for the years 2015 - 2017, from the [http://climate.weather.gc.ca/historical_data/search_historic_data_e.html Environment Canada historical data record]. | Daily rainfall records from ''BARRIE LANDFILL'' weather station were obtained for the years 2015 - 2017, from the [http://climate.weather.gc.ca/historical_data/search_historic_data_e.html Environment Canada historical data record]. | ||
The example will only consider rainstorm events, although the records also contain data for 'precipitation', which could be used instead if snowfall were also of interest to the analyst. (For example, if the analyst wished to calculate annual retention or runoff from a facility.) |
Revision as of 22:45, 27 October 2018
This article presents a step-wise approach to give design practitioners an idea of where figures like the 90th percentile event and concepts like 5 mm retention = 50% annual water balance target = 0.5 runoff coefficient come from.
The Ontario Ministry of the Environment Conservation and Parks, and other regulatory agencies perform much more rigorous statistical analyses than the example presented, and their resultant stormwater management targets vary accordingly.
Example: City of Barrie, using years 2015 to 2017[edit]
Daily rainfall records from BARRIE LANDFILL weather station were obtained for the years 2015 - 2017, from the Environment Canada historical data record.
The example will only consider rainstorm events, although the records also contain data for 'precipitation', which could be used instead if snowfall were also of interest to the analyst. (For example, if the analyst wished to calculate annual retention or runoff from a facility.)