Water temperature in Qinhuangdao
76.5
°F
June 26, 20:20
Trend:
stableYesterday:
76.7°FTomorrow:
76.7°F
Sunrise:
Sunset:
Day Length:
15 h. 0 min.Qinhuangdao in July
Minimum:
32.6°FAverage:
34.1°FMaximum:
37.0°FSea water temperature in Qinhuangdao today
As of now, in Qinhuangdao, the water temperature is 76.5°F. It's safe to say that the water is comfortably warm for various water-related activities. Today's reading is 3.7°F higher than the average recorded on this particular day in recent years. The sea temperature remains approximately unchanged from yesterday. According to the forecast, we expect the temperature to rise a bit.Recent sea temperature and forecast
Today's water temperature is notably higher than the average recorded over the past two weeks, indicating a significant warming trend. It is also close to the historical maximum temperature for this date. The maximum temperature recorded for this date was 75.8°F on 2023, while the historical minimum was 70.4°F on 2020.
Daily water temperature in Qinhuangdao
Date |
Current Year
actual* / forecast** |
last year | 10 years average |
---|---|---|---|
Jun 12 | 70.2°F | 70.2°F | 68.0°F |
Jun 13 | 68.8°F | 69.1°F | 68.4°F |
Jun 14 | 68.1°F | 69.4°F | 68.6°F |
Jun 15 | 70.3°F | 70.1°F | 69.0°F |
Jun 16 | 71.4°F | 71.9°F | 69.5°F |
Jun 17 | 71.2°F | 71.5°F | 69.7°F |
Jun 18 | 72.3°F | 71.7°F | 70.2°F |
Jun 19 | 71.6°F | 71.7°F | 70.6°F |
Jun 20 | 72.8°F | 71.6°F | 71.0°F |
Jun 21 | 73.9°F | 71.8°F | 71.3°F |
Jun 22 | 73.8°F | 71.6°F | 71.5°F |
Jun 23 | 76.0°F | 72.1°F | 72.4°F |
Jun 24 | 76.6°F | 69.3°F | 72.4°F |
Jun 25 | 76.7°F | 71.1°F | 72.7°F |
Jun 26 | 76.5°F | 72.2°F | 72.8°F |
Jun 27 | 76.7°F | 71.0°F | 73.0°F |
Jun 28 | 76.9°F | 71.2°F | 73.2°F |
Jun 29 | 76.6°F | 70.8°F | 72.9°F |
Jun 30 | 76.9°F | 71.0°F | 73.2°F |
Jul 1 | 77.1°F | 72.1°F | 73.4°F |
Jul 2 | 77.5°F | 72.5°F | 73.8°F |
Jul 3 | 77.6°F | 72.2°F | 73.9°F |
* actual - actual temperature values
** forecast - projected values for the next week
Real-time coastal temperatures could deviate by several degrees from the provided readings. These deviations often become evident following intense rainfall or strong winds.
Our forecasting methodology leverages a mathematical model, that uses current water and weather conditions, historical records, wind intensity and direction.