Units: | % |
Mode: | Input/Output |
Multi-band: | True |
Default Value: | 0 |
Validation Rule: | Between 0 And 100 |
Key Property: | No |
Description: | Expected proportion of time the facility is unavailable due to maintenance |
The simulator automatically distributes maintenance events throughout the simulation horizon during the PASA simulation phase. Maintenance Rate is the fraction of time annually that the units are expected to be out-of-service (OOS) due to scheduled maintenance events.
Property | Value | Units | Band |
---|---|---|---|
Maintenance Rate | 7 | % | 1 |
Min Time to Repair | 3 | hrs | 1 |
Mean Time to Repair | 36 | hrs | 1 |
Max Time to Repair | 100 | hrs | 1 |
Maintenance Frequency | 1 | - | 2 |
Mean Time to Repair | 300 | hrs | 2 |
Here the Maintenance Rate = 7%, which implies that on average
units will be out of service (OOS) 0.07 x 8760 = 613 hours per
annum. The repair time distribution is triangular thus the
duration of each outage will vary but on average the unit will be
out of service 7% each year.
Note that:
Different types of maintenance can be modeled on a Facility by separating the outage types using different band numbers as in the example above. In band two there is a 'major survey' of 300 hours duration that must be performed once per year: set by the Maintenance Frequency. In general however, it's recommended to set the Maintenance Frequency in band 1, this way we do the major survey first, which could avoid a situation that after maintenance events scheduled by Maintenance Rate, the remaining time space becomes fractional that may not be enough to allocate a major maintenance.
Note that defining Units Out and Maintenance Rate in the same band or different two bands will result in different maintenance requirements in PASA formulation. Here is an example:
Property | Value | Data File | Units | Band | Date From | Date To | Timeslice | Scenario |
Units | 1 | - | 1 | |||||
Max Capacity | 500 | - | 1 | |||||
Units Out | 1 | - | 1 | 2021-06-01 00:00:00 | 2021-06-29 00:00:00 | |||
Maintenance Rate | 8 | % | 1 | MB1 | ||||
Maintenance Rate | 8 | % | 2 | MB2 | ||||
Forced Outage Rate | 3 | % | 1 | MB2 | ||||
Forced Outage Rate | 3 | % | 2 | MB1 |
With Units Out and Maintenance Rate defined in
the same band (i.e. Scenario "MB1"),
the total required maintenance is calculated as:
Maintenance Rate x Capacity x Total Hours = 0.08 *500 *8760 = 350400
This includes discrete maintenance (defined by Units Out) = 500 * 696 = 348000 and distributed Maintenance (the remaining 350400 - 348000) =2400 .
When Units Out and Maintenance Rate are defined in different bands (i.e. Scenario "MB2"), the total required maintenance is calculated as:
Maintenance Rate x Capacity x Total Hours + Total Out Capacity = 350400 + 348000 MWh = 698400
This includes discrete maintenance 348000 and distributed Maintenance 350400 .
Note:
As an output, Maintenance Rate is the percentage of time the unit is out-of-service on maintenance either as a result of defining Maintenance Rate or Units Out.
See also: