Sentences with phrase «daily maximum wind»

The highest average wind speed of 8 m / s (fresh breeze) happens around July 16th, when the average daily maximum wind speed is 11 m / s.

The highest average wind speed of 6 m / s (moderate breeze) happens around February 29th, when the average daily maximum wind speed is 10 m / s (fresh breeze).

The lowest average wind speed of 5 m / s (gentle breeze) happens around February 1st, when the average daily maximum wind speed is 9 m / s (fresh breeze).

The highest average wind speed of 4 m / s (gentle breeze) happens around June 26th, when the average daily maximum is 6 m / s, whilst the lowest average wind speed of 3 m / s (light breeze) occurs around June 2nd, when the average daily maximum wind speed is 6 m / s.

The highest average wind speed of 5 m / s (gentle breeze) happens around January 31st, when the average daily maximum wind speed is 9 m / s (fresh breeze).

The highest average wind speed of 3 m / s (light breeze) happens around October 31st, when the average daily maximum wind speed is 6 m / s (moderate breeze).

The greatest average wind speed of 4 m / s occurs on March 2nd, during when the average daily maximum wind speed is 6 m / s.

The lowest average wind speed of 5 m / s happens around March 17th, when the average daily maximum wind speed is 9 m / s (fresh breeze).

Whereas the lowest average wind speed of 6 m / s (moderate breeze) happens around April 1st, when the average daily maximum wind speed is 9 m / s.

The highest average wind speed of 4 m / s is most likely to occur on February 28th / 29th, when the average daily maximum wind speed is 6 m / s.

The lowest average wind speed of 4 m / s (gentle breeze) occurs around December 31st, when the average daily maximum wind speed is 7 m / s (moderate breeze).

The highest average wind speed of 5 m / s (gentle breeze) happens around December 12th when the average daily maximum wind speed is 8 m / s (moderate breeze).

The highest average wind speed of 6 m / s (moderate breeze) happens around March 1st, when the average daily maximum wind speed is 10 m / s.

On the other hand, the lowest average wind speed of 4 m / s tends to occur around December 1st, when the average daily maximum wind speed is also 6 m / s.

The highest average wind speed of 4 m / s (gentle breeze) happens around October 31st, when the average daily maximum is 6 m / s, whilst the lowest average wind speed of 3 m / s (light breeze) happens around October 4th, when the average daily maximum wind speed is 6 m / s.

The highest average wind speed of 4 m / s happens around August 31st, when the average daily maximum wind speed is 6 m / s.

The highest average wind speed of 4 m / s (gentle breeze) happens around July 19th, when the average daily maximum wind speed is 6 m / s (moderate breeze), whilst the lowest average wind speed of 4 m / s occurs around July 1st, when the average daily maximum wind speed is 6 m / s.

We extracted 3 - hourly 2 m air temperature, dewpoint temperature, surface total precipitation, and 10 m U and V wind components using the ECMWF GRIdded Binary Application Programming Interface (GRIB - API) and used them to derive daily maximum and minimum temperature, maximum and minimum relative humidity, maximum wind and total daily precipitation amount and daily precipitation duration (Supplementary Table 3).

Six - hourly data fields for 2 m maximum temperature, minimum temperature, specific humidity, surface pressure, precipitation rate, water equivalent of actual snow depth and 10 m U and V wind components were summarized to daily data (Supplementary Table 2).

The highest average wind speed of 3 m / s (light breeze) happens around May 30th, when the average daily maximum is 6 m / s (moderate breeze), whilst the lowest average wind speed of 3 m / s occurs around May 1st, when the average daily maximum is 6 m / s.

On the other hand, the lowest average wind speed of 3 m / s occurs around August 5th, when the average daily maximum is 6 m / s.

On the other hand, the lowest average wind speed of 3 m / s (light breeze) usually occurs around October 12th, when the average daily maximum is 6 m / s.

The highest average wind speed of 4 m / s (gentle breeze) happens around May 1st, when the average daily maximum is 7 m / s, whilst the lowest average wind speed of 3 m / s (light breeze) happens around May 28th, when the average daily maximum is 6 m / s (moderate breeze).

The highest average wind speed of 2 m / s (light breeze) occurs around February 29th, when the average daily maximum is 5 m / s, whilst the lowest average wind speed of 2 m / s happens around February 1st, when the average daily maximum is 5 m / s.

The lowest average wind speed of 3 m / s tends to happen around July 31st, when the average daily maximum is 6 m / s.

The highest average wind speed of 4 m / s (gentle breeze) happens around July 1st, when the average daily maximum is 7 m / s.

The highest average wind speed of 4 m / s (gentle breeze) happens around February 29th, when the average daily maximum is 8 m / s, whilst the lowest average wind speed of 4 m / s happens around February 8th, when the average daily maximum is 7 m / s (moderate breeze).

The lowest average wind speed of 5 m / s (gentle breeze) occurs around May 16th, when the average daily maximum is 9 m / s.

The lowest average wind speed of 3 m / s (light breeze) happens around September 1st, when the average daily maximum is 6 m / s (moderate breeze).

The lowest average wind speed of 8 m / s occurs around July 1st, when the average daily maximum is 10 m / s.

The highest average wind speed of 4 m / s (gentle breeze) happens around December 31st, when the average daily maximum is 7 m / s, whilst the lowest average wind speed of 4 m / s happens around December 2nd, when the average daily maximum is 7 m / s.

Since daily ACE represents a 4 - times daily sum of wind speed squared, an «average» September 21st could see one of the following (among other combos): One TC at 125 knots Two TCs at 90 knots Three TCs at 70 knots or Six TCs at 50 knots Current TCs = 0 September 15: Global Hurricane Frequency [storms with maximum intensity greater than 64 knots] has dramatically collapsed during the past 2 - 3 years.

tasmax — Maximum daily temperature near surface tasmin — Minimum daily temperature near surface rhsmax — Maximum daily relative humidity near surface rhsmin — Minimum daily relative humdity near surface huss — Average daily specific humidity near surface pr — Average daily precipitation amount at surface rsds - Average daily downward shortwave radiation at surface was — Average daily wind speed near surface uas — Average daily eastward component of wind near surface vas — Average daily northward component of wind near surface

«Working with data pertaining to 7450 cardiovascular - related deaths that occurred within Budapest, Hungary, between 1995 and 2004 — where the deceased were «medico - legally autopsied» — Toro et al. looked for potential relationships between daily maximum, minimum and mean temperature, air humidity, air pressure, wind speed, global radiation and daily numbers of the heart - related deaths... scientists report and restate their primary finding numerous times throughout their paper, writing that (1) «both the maximum and the minimum daily temperatures tend to be lower when more death cases occur in a day,» (2) «on the days with four or more death cases, the daily maximum and minimum temperatures tend to be lower than on days without any cardiovascular death events,» (3) «the largest frequency of cardiovascular death cases was detected in cold and cooling weather conditions,» (4) «we found a significant negative relationship between temperature and cardiovascular mortality,» (5) «the analysis of 6 - hour change of air pressure suggests that more acute or chronic vascular death cases occur during increasing air pressure conditions (implying cold weather fronts),» (6) «we found a high frequency of cardiovascular death in cold weather,» (7) «a significant negative relationship was detected between daily maximum [and] minimum temperature [s] and the number of sudden cardiovascular death cases,» and (8) «a significant negative correlation was detected between daily mean temperature and cardiovascular mortality.»

@John Bennetts 11April 9.35 pm Australia presently consumers about 350GWh / day so that would be the maximum amount of daily storage required but considerable less than that because present hydro can deliver 100GWh in 24 hrs, and some wind and CSP would be available.