Albany Radar Notes
| Location | Albany Meteorological Office |
|---|---|
| Radar Type | Meteor 735C (C-Band, Doppler and Dual Pol enabled) |
| Typical Availability | 24 hours |
The Albany radar is rarely affected by false echoes or anomalous propagation and there are no permanent echoes. During the winter months rain bands may be observed moving in from the north-west ahead of strong cold fronts. Heavy showers occur with the passage of these fronts with further lines of showers embedded in the strong west to southwest winds that follow. Large thunder storm cells can also be seen moving along just off the south coast prior to the arrival of these strong fronts. "Cut-off" lows, with their own individual circulation, can occasionally develop off the south coast in the wake of cold fronts. Such circulations, when established, are generally slow moving and can produce large areas of rain and drizzle for days. South to southeast winds accompany such systems. During the summer months convective thunderstorms occasionally develop to the north-east of Albany near the Stirling Ranges and move to the southeast during the evening. Lightning from these storms creates a great night display but is a very real fire hazard. Heavy rain directly over the radar site can cause attenuation of all signals. Path attenuation can also occur when the radar beam passes through intense rainfall, with the returned signals from cells further along that path reduced.
About Future Radar
Future radar is a new drop-down option available on the Weatherzone radar, allowing you to see where precipitation may fall in the next 30 minutes, 1 hour or 2 hour timeframe. It is a prediction that uses past radar and satellite data to infer the movement and intensity of precipitation. This differs from observed radar which uses physical instrumentation to measure and render precipitation as it happens.
Future radar performs best with broad scale weather systems. However there are limitations in its performance when volatile convective systems develop and change within a short timeframe, as these scenarios provide local impacts that are difficult to predict in terms of speed, direction, intensity and shape.
To help visually distinguish between past timeframes and future timeframes, the radar animation will show predicted radar imagery at reduced opacity. You have the option to turn future radar on or off as it suits your needs.
Latest News
Map Legend
Lightning Heatmap
- 0.1
- 15
- 60
Lightning Strikes
- Latest
- 15 MINS AGO
- 30 MINS AGO
- 45 MINS AGO
- 60 MINS AGO
Ground Strike
Cloud to Cloud Strike
Obs Field (Rainfall - 10 mins)
- < 0.2
- < 0.6
- < 1.2
- < 2.4
- < 5
- < 10
- 10+
Obs Field (Rainfall - Since 9AM)
- < 0.2
- < 5
- < 10
- < 25
- < 50
- < 100
- 100+
Obs Field (Temperature)
Obs Field (Dew Point)
Obs Field (Wind km/h)
- 0 - 19
- 20 - 30
- 31 - 39
- 40 - 61
- 62 - 87
- 88+
Rain radar
Light
Heavy
Thunderstorm Risk
- Thunderstorms possible
- Thunderstorms likely
- Thunderstorms severe
Temperature Gradient Map
- -8 °C
- -4 °C
- 0 °C
- 4 °C
- 8 °C
- 12 °C
- 16 °C
- 24 °C
- 28 °C
- 32 °C
- 36 °C
- 40 °C
- 44 °C
- 48 °C
Warning Areas (BOM)
- SEVERE WEATHER
- FIRE
- FLOOD
- COASTAL WIND
- MISC.