Why Has It Been So Windy In Kansas?
- Dennis Hart
Why is Kansas going to have such a severe windstorm in 2022? – According to Omitt, one of the primary reasons why it has been so windy this year throughout the region is because a very active and powerful jet stream or storm track has been focused over the central Rockies into the central plains.
- This focuses very strong areas of low pressure near the surface, which in turn causes very strong areas of low pressure to form near the surface.
- Since March, he said, that jet stream has caused a multitude of powerful low pressure systems to form just to the east of the Rocky Mountains, and then they have moved east over the region.
“When that happens, we get extremely high winds out of the south or southwest to the east or southeast of the low pressure system,” Omitt said. “And then as the low center moves away, winds turn west or northwest, and they frequently tend to be nearly as powerful.” More: The owner of a Ramada investigates a legislator’s accusation that the hotel is occupied by people who are in the country illegally.
What state is known as the windy state?
Because of the brisk winds that blow in off of Lake Michigan and through the city streets, Chicago is also known as the “windy city.” This is one of the reasons for this nickname. Windiest States 2022.
|Mean Wind Speed at 328 ft||21.5|
|Mean Wind Power Density at 328 ft. (W/m^2)||964|
|Mean Wind Speed at 33 ft||14.1|
|Mean Wind Power Density at 33 ft. (W/m^2)||14.1|
Why is it so much windier now?
The pattern disproves the hypothesis of a “global stilling,” which has repercussions for the wind energy industry. Image courtesy of Getty Images At least for the time being, the fact that wind speeds are increasing everywhere in the world is excellent news for the production of renewable energy.
According to the findings of a research that was just published yesterday in the journal Nature Climate Change, winds have been picking up speed throughout a significant portion of North America, Europe, and Asia since roughly the year 2010. In a period of less than a decade, the average speed of the wind over the world has grown from around 7 miles per hour to approximately 7.4 miles per hour.
That is equivalent to an increase in potential wind energy of 17% for the typical wind turbine. Researchers believe that this might account for around half of the increase in the United States’ wind power capacity since 2010. A disagreement in the scientific community that has been vexing academics for years may finally be put to rest thanks to this study.
- Before the winds throughout the world began to pick up in 2010, they had been going in the other direction for several decades, beginning in the 1970s.
- A wide number of hypotheses were put up by scientists in regard to the “global stilling,” as it came to be known.
- One of the theories that gained the greatest traction postulated that expanding urban development and other forms of land-use change had changed the surface of the planet, making it more abrasive and so increasing the amount of drag that was exerted on the circulation of air around the world.
But if that were the case, wind speeds shouldn’t be increasing today; rather, they should be decreasing as time goes on. The current reversal provides evidence that indicates there must be another component that is playing a more significant role. The findings of the recent study indicate to massive natural climatic cycles as the most likely source of the problem.
The researchers used models to investigate the factors that influence the behavior of global winds and found that large-scale climate patterns, which affect temperatures in certain parts of the world, have a significant influence on wind speeds. This was discovered after the researchers investigated the factors that influence the behavior of global winds.
The movement of air can be influenced by changes in temperature between adjoining regions, as well as between the ocean and nearby land areas. For example, the researchers discovered that when temperatures are higher in some regions of the tropical Atlantic and western Pacific as well as over Greenland, wind speeds have a tendency to decrease throughout a large portion of the Northern Hemisphere.
- As a direct result of human activity, average global temperatures are continuously climbing higher.
- This is called “climate change.” Temperatures in these locations, however, have a tendency to naturally cycle back and forth between warmer and colder periods, with the warmer periods often lasting for decades at a time.
This wider, longer-term warming trend, however, does not account for this phenomenon. The authors of the current study hypothesize that a change in the timing of particular naturally occurring climatic cycles may have been a contributing factor in the transition from slower to higher wind speeds.
- If what they say is accurate, the current acceleration might continue for another ten years or perhaps longer, until the next significant change takes place.
- This has the potential to be a game-changer for the wind power sector in the not too distant future.
- The authors hypothesize that the current trend would continue, which would result in an increase in the average amount of worldwide power output of up to 37% by the year 2024.
In addition to this, the study brings up several vital concerns with regards to the long-term planning of wind power. If natural climatic cycles are capable of causing such significant shifts in the average wind speed throughout the world, then the industry should prepare for the possibility of ups and downs.
- And if variations in temperature truly do have such a significant impact, there is also the question of how potential future climate change may play a role in the equation.
- Recent research has made connections between climate change and the behavior of the jet stream in the northern hemisphere, the westerly winds around Antarctica, and other air circulation patterns around the world.
While some theories are more controversial than others, these connections have been made despite the fact that some theories are more contentious than others. And other modeling studies have shown that ongoing warming might create significant shifts in the locations throughout the world that have the most potential for wind generation — specifically, decreases in the Northern Hemisphere and some possible increases in the global South.
- For the sake of long-term planning, including determining where to invest in new wind farms and what to expect from current ones, it is essential to identify the areas in which these changes could take place.
- If the findings of the current study are genuine, then it is important to take into consideration not just the natural climatic cycles but also the continuous influence of global warming.
This article is reprinted with permission from E&E News and was first published on Climatewire. Daily coverage of important energy and environmental news may be found at www.eenews.net, which is provided by E&E.
What is causing the strong winds?
The wind is about to blow! – We’ve now reached the point where the wind starts to blow. Gases tend to migrate from locations of high pressure to areas of low pressure. And the greater the difference in pressures, the quicker the air will migrate from the region of high pressure to the region of low pressure. The sensation of wind is caused by the rushing of the air.
What is the second windiest city in the United States?
2.13.6 miles per hour in Amarillo, Texas – Amarillo, located in Texas, is the city in the United States that has the second-highest average wind speed, clocking in at 13.6 miles per hour. iStock.com/RoschetzkyIstockPhoto It is hardly surprising that Amarillo, located in Texas, is regarded as the second-most windy city in the United States.
The average wind speed there is 13.6 miles per hour due to its location in the windy Texas Panhandle, which is east of the Rocky Mountains. In spite of the fact that Amarillo has one of the highest average wind speeds of any city in the United States, the city’s record wind gust of 84 miles per hour is not as high as the gusts that have been recorded in other areas in Texas and the Midwest.
According to the historical climate data for Amarillo, the persistent low pressure is responsible for the strong winds that come from the southwest and the west. During the months with the most wind, the city is subjected to sustained winds of 50–60 mph, and even in the months with less wind, such as August and September, the city has winds of 40 mph.
Where is the least windy place on earth?
Put this question in your bookmarks. Display any recent activity on this post. After doing some study on the topic online, I came to the conclusion that Antarctica is home to the world’s most tranquil winds, as measured by the lowest maximum wind speed.
Is 2022 going to be a hot summer?
It appears that the summer of 2022 will be one of the hottest on record. The world’s land regions had the highest recorded temperatures in June 2022, shattering all previous records for warmth. At the same time, record-breaking heatwaves spread over the northern hemisphere, notably continental Europe, the United Kingdom, China, and portions of the United States.
- Despite the warm temperatures of the summer, most datasets indicate that 2022 will still likely rank as the fifth warmest year on record.
- However, depending on how temperatures evolve in the remaining six months of the year, 2022 could rank as high as the second or as low as the eighth warmest year on record.
The continuous occurrence of a La Nia phenomenon known as “double dip” has resulted in colder ocean waters reaching the surface in the tropical Pacific, which is contributing to a decrease in the average global temperature. However, even if 2022 does not establish a new record for the warmest year on record, the globe will still have experienced eight of its warmest years in the most recent eight years.
Is New England getting windier?
“It is evident that mankind does not have its hand on the rudder of climate management,” the scientists concluded. “Based on the evidence given here, and the continued growth of greenhouse gases.” “We are in the midst of a climate catastrophe, and it is imperative that we work together to cut back as quickly as we can on the amount of greenhouse gases that we produce.
The changes in temperature that are presently taking place threaten to alter the seasonality of New England, which in turn would destabilize the region’s ecosystems as well as its economy.” According to the findings of the study, the temperature in New England climbed by an average of 1.83 degrees Celsius (3.29 degrees Fahrenheit) between the years 1900 and 2020, while temperatures on the rest of the earth rose by an average of 1.14 degrees Celsius.
Since the 1960s, nearly all of this warming has taken place as a result of the increased combustion of fossil fuels, which has led to an increase in the amount of heat-trapping carbon dioxide and methane in the atmosphere. The yearly average temperature in Massachusetts has climbed even more quickly than it has in the other states in New England, climbing 1.97 degrees Celsius, which is equivalent to 3.55 degrees Fahrenheit, over that time period.
- The warming in the region has already surpassed a threshold that was set by the Paris Climate Accord, in which nearly 200 nations agreed to cut their emissions in an effort to limit global warming to 1.5 degrees Celsius.
- In the accord, nearly 200 nations agreed to cut their emissions in an effort to limit global warming to 1.5 degrees Celsius.
In the event that global temperatures rise by more than that amount, experts predict that the devastation caused by worsening storms, rising sea levels, droughts, forest fires, and other natural catastrophes will likely be devastating. The authors of the study stated that due to the fact that New England’s annual temperatures are projected to rise sharply in the coming decades, the region should prepare for major disruptions to its economy.
These disruptions include coastal waters that will become increasingly inhospitable to iconic species such as cod and lobster; fewer days when skiing and other forms of winter recreation will be possible; less maple syrup and other agricultural products produced; and a range of other consequences. The length and intensity of New England’s summers are both on the rise.
Craig F. Walker/Globe Staff/file Stephen Young, a professor of environmental sustainability at Salem State University and the study’s primary author, remarked that “we have a big challenge ahead of us” in regard to the process of achieving temperature stability across the globe.
This work adds to the body of research that has already revealed abnormally high temperatures in the Northeast and the alterations that have resulted from those temperatures. Previous research has demonstrated that there has been a significant reduction in the amount of ice that forms on rivers and lakes throughout the winter, a decrease in the amount of precipitation that falls as snow, and an early blossoming of everything from lilacs to apple trees.
According to research conducted by Young in the past, between the winters of 2001 and 2017, the region of New England lost an average of 6.2 days of snow covering the ground, with Connecticut losing the most, at 14.6 days. During that time period, Massachusetts lost a total of 12 days’ worth of snow cover.
- He pointed out that the lack of snowfall is one of the factors contributing to the warming of the region.
- Snow is known to reflect the energy of the sun back into space, but when there is less snow, the earth is able to absorb more sunlight.
- Young described the situation as a “reinforcing feedback loop.” Climate researchers at the University of Massachusetts Amherst released a study in the journal PLOS One in 2017 that revealed the Northeast was rising faster than any other region of the US, with the exception of Alaska.
They predicted that by the year 2025, yearly average temperatures will be 2 degrees Celsius higher than pre-industrial levels, a threshold that some states have already surpassed in the most recent years. The scientists believe that changes in atmospheric conditions as well as rising temperatures in coastal waters, such as the Gulf of Maine, are to blame for the warming in the Northeast.
- According to the scientists, the Gulf of Maine is one of the bodies of water on the planet that is warming at the fastest rate.
- One of the bodies of water on the earth that is warming at an alarmingly rapid rate is the Gulf of Maine, which spans all the way from Cape Cod to Nova Scotia.
- Jessica Rinaldi/Globe Staff According to Ambarish Karmalkar, an assistant professor of geosciences at the University of Massachusetts Amherst and one of the authors of the 2017 paper, “The coastal Northeast is part of a very small fraction of Northern Hemisphere land areas that have warmed by more than 2 degrees Celsius so far.” “Higher warming trends near the coast are being caused by a combination of ocean warming in the northwest Atlantic and changes in air circulation in the Atlantic sector,” according to one theory.
According to Cameron Wake, a climate scientist at the University of New Hampshire in Durham, his research has found that his state has experienced higher average temperatures in the wintertime, with the coldest days now being nearly 6 degrees Fahrenheit warmer than they were in the 1970s.
- He said that this is the result of the state’s warming trend.
- Because of the milder winters, more invasive insects have been able to survive in locations where they had previously been unable to.
- For instance, tree pests like the hemlock woolly adelgid and the emerald ash borer are expanding their ranges throughout New England, destroying the forests in their path.
On the other hand, deer ticks are thriving, which is leading to the death of moose and an increase in the prevalence of Lyme disease. Insects that are harmful to trees, such as the emerald ash borer, are spreading throughout New England and making their ranges larger.
AP/file Wake stated that this new research is completely in line with what they’ve uncovered, and he was right. Richard Primack, a professor of biology at Boston University who investigates the impacts of climate change on plants and animals, has connected the warming of the region to losses of local biodiversity.
Primack researches the effects of climate change on plants and animals. According to the findings of his research, more than half of the species of migratory birds observed at a banding station in Plymouth are currently in a state of decline, and more than half of the species of wildflowers observed at a study location in Concord have either decreased in number or become extinct in the region.
The most recent research was described by him as providing “a solid overview” of how the region’s seasons are shifting. “Climate change will influence each season in its own individual way, and it will push New Englanders to alter their lives,” he added, noting that his family had just just installed air conditioning in their house in order to cope with the summer heat waves.
Although there has been an overall upward trend in the region’s temperatures over all four seasons, the most noticeable rises have occurred during the coldest days of winter. According to the findings of the study, the overall temperature of New England’s winters has increased by 2.75 degrees Celsius, which is equivalent to 4.86 degrees Fahrenheit, between the years 1900 and 2020.
The state of Massachusetts has seen an increase in wintertime temperatures of about 7 degrees Fahrenheit on average. According to Young, warming over the winter has been less obvious, which causes a type of cognitive dissonance concerning climate change. After all, very few people take pleasure in braving the bitter cold.
As a consequence of this, he is concerned that milder winters might “make many people complacent to the current warming, and make the subject of climate change in New England appear less critical.” He stated that although we still have the potential to avoid the worst effects of climate change, we must act quickly in order to do so.
Are the seasons shifting 2022?
New weather patterns will begin to emerge in the second half of the year, particularly during the colder months of the year, as a result of the major shifts that will take place in the atmosphere and the oceans in the year 2022. The alterations will begin gradually at first, but the most of the shift won’t become noticeable until the warm season in 2022.
But what exactly is it that is shifting this year, and what kinds of weather patterns have been brought about by shifts of this kind in the past? We are going to take a trip through the weather through the year 2022, and we will begin with a seasonal weather pattern forecast for the latter half of winter and the first part of spring.
From there, we will go on to the atmosphere and the seas to make observations on what is presently changing and what will change in the future. You are going to get an understanding of how and why these worldwide shifts occur, as well as what will be different in 2022 in comparison to the years that have just passed.
Is Britain getting windier?
The first and fourth quarters are the ones with the most wind. Since 2010, the greatest wind speeds have been observed, on average, during the first and fourth quarters of each year. The first quarter of 2020 saw average wind speeds of roughly 11.5 knots, making it the quarter with the highest quarterly wind speed averages.