been saved in the health sector, the growth of clean energy from wind turbines and solar panels has been greatly facilitated, and safe food storage has been revolutionized. But what makes plastic so convenient in our day-to-day lives – it’s cheap – also makes it ubiquitous, resulting in one of our planet’s greatest environmental challenges.
The climate of Puget Sound is a product of the interaction between large-scale wind and weather patterns and the complex topography of the region. Seasonal changes in the movement of moisture-laden air that collides with the sudden barrier of the Olympic and Cascade mountains bring Puget Sound the record-breaking precipitation for which it is so famous.
The winds are known especially for the hot dry weather (often the hottest of the year) that they bring in the fall, and are infamous for fanning regional wildfires. For these reasons, they are sometimes known as the "devil winds" across Southern California. What are the global wind patterns?
The information contained in JetStream is arranged by subject; beginning with global and large scale weather patterns followed by lessons on air masses, wind patterns, cloud formations, thunderstorms, lightning, hail, damaging winds, tornadoes, tropical storms, cyclones and flooding.
Wind patterns exist at many different scales of motion, from the largest patterns over the whole globe, to winds associated with lows and fronts, to small turbulent eddies. All these scales are often superimposed on top of each other. In this section, we will focus on only the larger-scale (global)...
Weather maps provide past, current, and future radar and satellite images for local, Canadian and other North American cities.
Technical Assistance. Access models, data, tools, and guidebooks designed to aid in the siting and development process for wind energy projects.. See frequently asked questions about wind energy.
At a given site, stronger winds (e.g., winds with a basic wind speed in the range of 70 to 80 mph peak gust) may occur from several times a year to only once a year or less frequently. 70 to 80 mph is the threshold at which damage normally begins to occur to building elements that have limited wind resistance due to problems associated with ...
Global Wind Patterns The earth’s prevailing winds are the result of two major factors: differential heating and the earth’s rotation. A three-cell model of global circulation is a starting point for understanding the prevailing winds, but keep in mind that seasonal changes and landmasses have a major effect on these patterns.