Difference between revisions of "The mortality due to PM 2.5 from buses"
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==Scope== | ==Scope== | ||
| − | Number of premature deaths due to PM 2.5 from buses in Helsinki Metropolitan Area | + | Number of premature deaths due to PM 2.5 from buses in Helsinki Metropolitan Area in 2020 |
| − | {{ | + | {{reslink| Scope should contain temporal information}} |
==Definition== | ==Definition== | ||
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===Formula=== | ===Formula=== | ||
| − | deltaM = | + | deltaM = Mb(eexp(bdeltaE)-1) |
* b = dose-response coefficient | * b = dose-response coefficient | ||
* deltaE = change in exposure | * deltaE = change in exposure | ||
| − | * | + | * Mb = background mortality{{reslink|Talk:The mortality due to PM 2.5 from buses}} |
==Results== | ==Results== | ||
| − | The mortality due to primary fine particles from buses ranged from 3 to 18 cases per year in the different bus strategies. | + | The mortality due to primary fine particles from buses ranged from 3 to 18 cases per year in the different bus strategies in 2020. |
Revision as of 16:12, 20 February 2008
Scope
Number of premature deaths due to PM 2.5 from buses in Helsinki Metropolitan Area in 2020 R↻
Definition
Data
- mortality due to cardiopulmonary, lung cancer and other causes,
- exposure to road traffic PM 2.5,
- the fraction of bus exposure of total road traffic exposure
Causality
- effect of bus type on PM 2.5 emissions and exposure,D↷
- relationship between the exposure of PM 2.5 and mortality effects
Unit
Estimated deaths per year associated with primary PM 2.5
Formula
deltaM = Mb(eexp(bdeltaE)-1)
- b = dose-response coefficient
- deltaE = change in exposure
- Mb = background mortalityR↻
Results
The mortality due to primary fine particles from buses ranged from 3 to 18 cases per year in the different bus strategies in 2020.
