The Principles of Rainfall in Textbooks
The formation principle of rainfall:
After being exposed to sunlight, water on Earth becomes water vapor and evaporates into the air. Water vapor condenses into small droplets when it encounters cold air at high altitudes. These small water droplets are very small, with a diameter of only 0.01-0.02 millimeters and a maximum of only 0.2 millimeters. They are small and light, carried in the air by the updrafts in the air. It is these small water droplets that gather in the air to form clouds. But if the water and gas energy sources inside the cloud are continuously supplied and replenished, causing the surface of the cloud droplets to often be in a supersaturated state, then this condensation process will continue, causing the cloud droplets to continuously increase and become raindrops.
Rainfall levels are divided into light rain, moderate rain, heavy rain, rainstorm, heavy rainstorm and extremely heavy rainstorm.
Rainfall types: convective rain, terrain rain, typhoon rain, frontal rain.
Rainfall can be divided into year-round rainy types, such as tropical rainforest climate, year-round less rainy type, such as tropical desert climate, summer rain type, subtropical monsoon climate, winter rain type, and Mediterranean climate.
China has a monsoon climate, and the rainfall area is mainly controlled by atmospheric circulation systems such as the Northwest Pacific Subtropical High. From mid June to mid July, the main rain belt in eastern China generally moves northward from South China and Jiangnan to the middle and lower reaches of the Yangtze River or the Jianghuai region; In late July, with the seasonal northward uplift of the subtropical high circulation system, the southwest monsoon will also advance northward. The southwest wind on the periphery of the subtropical high will transport warm and humid airflow from the tropics and subtropics to the northern region, where it intersects with mid latitude cold air in North China and Northeast China. The rainy season begins in North China and Northeast China. To learn more, search on Baidu.
In short, rainfall is only meteorology, completed independently by the atmosphere, and has nothing to do with geological structure. In fact, it is not like this?
Knowing that rainfall is formed by the condensation of high-temperature water vapor from fault zones, and based on the distribution patterns of rainfall zones, it is known that there are dry hot rocks and groundwater beneath these fault zones. We also know the distribution and flow patterns of groundwater, and why groundwater cannot reach this place without rainfall. Rainfall also occurs in areas with lightning, and there are coal bed methane or natural gas underground in the fault zone. If you insist that rainfall is only a topic of meteorology and stick to the rules for a lifetime, it is determined by your personality. Mendel discovered genetic laws, separation laws of genetic factors, and free combination laws of genetic factors by studying the relative traits of different characteristics of peas. Many people took it as a joke, but only Morgan believed in his research results and continued his research direction, observing the genetics of fruit flies. Morgan discovered the third law of genetics. He founded the famous genetic theory in the 1920s, revealing that genes are the genetic units that make up chromosomes. They can control the development of genetic traits and are also the basic units of mutation, recombination, and exchange. In 1933, Morgan won the Nobel Prize in Physiology and Medicine. As long as one person believes in my theory, my research is meaningful. What you are seeing now is not the final research results, but only the beginning of scientific research. This topic is too big for me to move and requires many people to carry it out together. I hope more people will join the field of Earth science and not separate it. Meteorology, geology, seismology, astronomy, pyrology, and environmental science are interrelated. To understand the pattern of rainfall, it is necessary to understand the distribution pattern of fault zones before you can discover the chances of rainfall zones overlapping with fault zones? But I will explain them separately. You need to look at the complete part to understand China's rainfall patterns. To understand China's rainfall patterns, you can only see a corner of the global rainfall patterns, different structures under different fault zones, and different groundwater conditions. China's fault zones are only a part of the global fault zone. Feet has its strengths, while inch has its weaknesses. My Chinese proficiency is limited, my language is mixed and there are no rounds, my place names are inaccurate, there are also sensitive words, and my website is not formal. These are all drafts. My time is limited, my economic ability is limited, and I need to conduct scientific research, write summaries, and conduct science popularization. Without income, I have to find investments. I suffer from various diseases and die at any time. In that case, all the research results will perish with me. If I can't die, I will have time to look back and reconsider.
Artificial Rainfall Experiment
On September 14, 2023, a natural gas transportation pipeline exploded near Saratov, Russia, resulting in a fire in an open area of approximately 2 hectares. Cumulus clouds generated by natural gas combustion. This experiment proves that "continuous upward hot air flow on the surface will generate cumulus clouds, which rise to high altitude and condense into small water droplets. As the density increases, they will sink. During the sinking process, the condensed water droplets become larger and larger, forming rainfall. The flow rate, area, and temperature of the ascending hot air flow determine the volume, elevation, and rainfall of cumulus clouds.
On September 14, 2023, a natural gas transportation pipeline exploded near Saratov, Russia, resulting in a fire in an open area of approximately 2 hectares. Cumulus clouds generated by natural gas combustion. This experiment proves that "continuous upward hot air flow on the surface will generate cumulus clouds, which rise to high altitude and condense into small water droplets. As the density increases, they will sink. During the sinking process, the condensed water droplets become larger and larger, forming rainfall. The flow rate, area, and temperature of the ascending hot air flow determine the volume, elevation, and rainfall of cumulus clouds.
At 20:00 on December 9, 2021 (China time), while haze was emerging in the Qiqihar section of the Nenjiang fault zone, a large amount of high temperature and water vapor also emerged in the Nenjiang City section. The high temperature gradually expanded and rose. The substances stored in different parts of the fault zone were different, and some places emerged with pure water vapor, forming rainfall. In some places, dry and hot temperatures are emerging; In some places, volcanic ash, also known as PM2.5-10 particles, emerged, which is also known as haze. The haze will not disappear once it emerges, so it can be detected for a long time. The instantaneous high temperature that emerges is like a flash in the pan, and it is rarely seen by people.
The high temperature distribution is conical, with a weak north wind blowing, and the cone is leaning southward. The temperature gradient (step) in the north is wide, with a central temperature above 32 degrees, reaching high summer temperatures. In winter, at 0 degrees, why is there suddenly a high temperature of over 30 degrees? Because, without continuous high temperatures and continuous air expansion, there would be no continuous strong winds. If the high temperature continues to rise, causing the low-altitude air to rise, the low-altitude air will reach the high altitude and rapidly cool down, resulting in low temperature at high altitude. This high temperature zone is about 100 kilometers in diameter, which means that suddenly, high temperatures emerged underground within a hundred kilometers. Such a sudden rise of 30 degrees in such a large area is a huge amount of energy. How is this energy stored underground before it comes out? In what form does it exist? Isn't it released in an explosive way? Instead, it is released slowly, and the eruption vent is not visible on the ground. So, how is the heat released instantaneously? Is this the first or last time that high temperature emerges? Who cares? Find out how much economic benefit it can generate? Who will accept such a loss-making scientific research?
At 12:00 on December 14, 2021 (China time), the high temperature area of 20-24 degrees gradually expanded, and a high temperature area of over 32 degrees suddenly appeared in the northeastern part of Wuhan.
How many places will experience occasional temperature rise? How often does it heat up? How many degrees per rise in temperature?
At 2:00 am on January 15, 2023 (Beijing time), a sudden high temperature occurred in the southeastern direction of Guiyang. Shortly afterwards, a plane crashed in neighboring Nepal. The ATR-72 passenger plane from Nepal took off from Kathmandu, the capital of Nepal, at 10:30 a.m. local time and headed for Pokhara. It lost contact with the ground at 10:50 a.m. The weather conditions in Pokhara were very good when the plane crashed. The pilot did not report any technical malfunction before the crash. Could it be that Nepal suddenly has natural gas, and the plane ignites the natural gas, causing a sudden explosion and resulting in a crash?
At 18:00 on May 3, 2023 (China time), Fuzhou and Taiwan experienced an hour of instantaneous high temperatures of 37 degrees Celsius. What caused the high-temperature belt in the northwest and southeast of Taiwan? At this time, the sun can no longer shine on Taiwan. The high temperature in Taiwan and Fuzhou is caused by the high temperature hot air rising from underground. Why are the high temperatures not spread out evenly, but rather in stripes, always in the northwest-southeast direction? This is the direction of the fault zone. The website has an article titled "Why Taiwan's high temperature zone, visibility zone, and wind zone are the same".
There are countless places in China that experience instantaneous high temperatures, and there are many cases of rainfall occurring after high temperatures. This website has relevant articles.
Distribution law of rainfall belt in China
Look at these rainfall maps below. The rainfall belt runs through half of China. What type of rainfall is it?
At 2pm on April 1-2, 2023 (Beijing time), the rainfall belt in the south of the Yangtze River was neatly lined up. Is the rainfall starting from here? Or is the rain over? The Mohe-Kunming fault zone has the highest precipitation, which is the volcanic zone where wildfires often occur.
The Hohhot-Qinling section of the Mohe-Kunming line has the highest precipitation, what type of rainfall is it?
The rainfall belt remains fixed on the line from Mohe to Kunming for a long time, and then expands eastward, rather than moving.
From the perspective of precipitation in one month, the precipitation in the sections from Mohe to Wenkutu Township and from Zhangjiajie to Zhaotong on the Mohe-Kunming line is not small.
The maximum precipitation occurs in Huzhong Town and Wenkutu Township, both located on the Mohe-Kunming fault zone. There are some point-shaped rains and also some strip-shaped rains. They have been fixed on the line from Mohe to Kunming for more than a month. Is it a climatic rain? Or is it topographic rain? Or front rain? Or convective rain?
The rainfall belt drifts along three fault zones, from the Tahe County to Kunming fault zone to the Mohe to Beibu Gulf Vietnam coastline, and then to the Bell Lake to Poyang Lake fault zone. Wenkutu Township has the highest rainfall.
The rainfall in the North China Plain is distributed on the Mohe Beibu Gulf Vietnam coastline fault zone, also on the Lhasa Shenyang fault zone, and also on the Kamen River Penglai fault zone. Shidu Town has a large rainfall.
Rainfall in the North China Plain is distributed on the Mohe Beibu Gulf Vietnam coastline fault zone, also on the Lhasa Shenyang fault zone, and also on the Kamen River Penglai fault zone. Shidu Town and Laiyuan County have always had the largest rainfall.
There was rainfall in Shidu Town and Jiulong Town, but there was no rainfall around them. Where did the water vapor come from?
The rainfall belt shifted from the Mohe River to the Beil Lake-Poyang Lake fault zone on the Vietnam coastline. Cross the Luanhe fault zone.
The occurrence pattern of the Beijing Hebei rainfall belt
This is the weather in Kowloon Town on July 31, 2023. It's such heavy rain, not black clouds rolling, but gray white clouds, white like smoke, layer by layer, with the water surface once, the mountains once, and the sky once. It's like freshly opened soda, and water vapor is coming out of the water. If it is the condensation of water vapor in the air, it will not be layer by layer, but a fog that stretches from ground to sky. Where is the characteristic of water vapor uplift?
On August 5, 2023 at 12:00 am (Beijing time), the cloud patterns in Jize County and Jingxian County are unique. Look at these textures, they are static textures, not formed by the flow of cold and hot air. They are flipping on the spot and must have emerged on the spot. It's still far from the mountain area, and there's no mountain uplift. Why is it tumbling? Two clouds happen to be on the fault zone connecting Lhasa to Wafangdian.
Looking at the actual precipitation map in July, the rainfall zone with the largest precipitation is in the Erenhot the Taihu Lake Lake fault zone, the 237 heavy rain is in the Erenhot the Taihu Lake Lake rainfall zone, and also in the Nujiang Songhua River downstream fault zone. It is at the intersection of two fault zones, that is, the water vapor under the two fault zones can converge to Beijing Tianjin Hebei.
The 24-hour rainfall map from 8:00 am to 8:00 am on September 8, 2023 (Beijing time) shows that the rainfall in Mentougou and Fangshan is still the largest area in North China, and the rainfall belt is a standard rectangular shape with neat edges, parallel to the line connecting Lhasa to Changchun? Is every rainfall belt in this direction? The 237 flood was caused by Dussuri, what is the reason for this one?
The 24-hour rainfall reality map from 20:00 on September 8, 2023 to 20:00 on September 9 (Beijing time) shows that the precipitation in Mentougou and Fangshan is not small every time. The rainfall belt is in the southwest northeast direction, is it blown out by the wind? Such wind and rain belts should not land in these places.
The 24-hour rainfall map from 20:00 on September 8, 2023 to 20:00 on September 9, 2023, and the rainfall map from 8:00 on July 29 to 17:00 on July 30, 2023. Without the help of residual water vapor from Dussuri, the heavy rain area in September highly coincides with the heavy rain of 237. Both rainfall zones are located at the red arrow to the north, on the three provincial boundaries, namely the line from Lhasa to Changchun; The northern boundary of rainstorm is on the line from Daixian County, Shanxi Province to Chengde City, Hebei Province. According to the satellite map, it passes through the Yanshan Mountains, Guanting Reservoir, and the upper reaches of the Hutuo River. To the north of Mount Wutai, it seems that Mount Wutai has raised the warm and humid air flow, resulting in rainfall. At the pink arrow in the picture, the rainfall zone in southwestern Shandong is bounded by the Yellow River. The western part of the Yellow River receives a large amount of rainfall, while the eastern part of the Yellow River receives a small amount of rainfall. Does the Yellow River also have the function of raising warm and humid airflow? The visibility here is often limited by the Yellow River, and why?
On September 11, 2023 at 10:00 am (Beijing time), the cloud belt remained on three fault zones from Everest to Changchun for 7 hours. These three fault zones all crossed the 237 heavy rain area, which is the northern boundary of the heavy rain area and intersects on the Hubei side of Xingkai.
On September 11, 2023 at 15:00 (Beijing time), the cloud belt remained on three fault zones from Mount Everest to Changchun for 7 hours. At the same time, a stream of water vapor emerged from the fault zone between Tahar Province and the Bashi Strait in Afghanistan, and a sandstorm appeared in Tahar Province (arrow).
On September 11, 2023 at 15:00 (Beijing time), the cloud belt remained on three fault zones from Mount Everest to Changchun for 7 hours. Not affected by terrain? No elevation? Not affected by wind?
On September 11, 2023 at 18:23 (Beijing time), the cloud belt remained on three fault zones from Mount Everest to Changchun for 7 hours. This is three faults on a fault zone. Firstly, you need to understand the nature of the fault zone in order to understand the emergence of water vapor.
On September 13, 2023 at 21:00 (Beijing time), the attitude of the cloud belt changed, and the water vapor in the middle of the fault zone was completely released, but both ends were on the Everest to Changchun fault zone.
Looking at the four fault zones on the satellite map, the Everest Changchun fault zone passes through the Yanshan Mountains, Guanting Reservoir, the upper reaches of Hutuo River, Chengde, and Dadu Mountain. To the north of Mount Wutai, it seems that Mount Wutai has raised the warm and humid air flow, resulting in rainfall. Why is the area with the highest rainfall located south of the mountain range, where the water vapor has not yet risen?
Why are mountains and rivers parallel to this line? Parallel Lhasa to Changchun Fault Zone? The rain belt on September 8 is distributed just south of the connecting line from Daixian County to Chengde City, scattered in the Taihang Mountains. Is the airflow flowing through the rainstorm area large? So why does the airflow flow through the Mentougou and Fangshan areas? Isn't this a mountain pass? There hasn't been a long period of strong winds either?
In fact, it is rainfall formed by the condensation of water vapor rising from below the fault zone. In places with high rainfall, the flow of water vapor from underground is large. When groundwater encounters the dry and hot rock in the fault zone, it becomes water vapor. Fangshan is the intersection of several fault zones, and when the water from the branch fault zone enters, water vapor will emerge. The distribution of groundwater is still unclear.
From the satellite imaging map taken at an altitude of tens of thousands of meters, it can be seen that there is a small area of exceptionally striking green in the northwest of Lvliang, suddenly appearing in the center of a large loess hill. Here are the Zijin Mountain and Dadu Mountain located at the junction of Linxian and Xingxian.
Dadu Mountain and Zijin Mountain are located on the Everest to Changchun fault zone. Zijin Mountain and Dadu Mountain are collectively referred to as the Zijin Mountain rock mass in geology. This huge rock mass, which is clearly exposed in the surrounding loess land at an altitude of 1800 meters, runs in a northwest southeast direction, is 7.5 kilometers long, 4 kilometers wide, and covers an area of 2230 hectares. Research has shown that the Zijinshan rock mass is a product of the upwelling activity of mantle magma in the Early Cretaceous. So why does mantle magma emerge from here? This is the intersection of the Everest to Changchun fault zone and the north-south section of the Yellow River fault zone.
Mount Everest is still moving along the direction from Mount Everest to Changchun, that is, sliding along the fault zone. The mountaintop cave people in Zhoukoudian are also on this fault zone, and geothermal energy has retained the mountaintop cave people. There are many features and stories on each fault zone, and this is just a sneak peek. If we want to introduce the fault zones corresponding to each rainfall zone, the article would be too long. To see the whole picture, read the articles "China Fault Zone" and "Global Fault Zone".
On July 29, 2023 at 19:00 (Beijing time), the Chinese rainfall belt was just a point on the global rainfall belt. Dussuri's final path was on the Huangyan Island to Erenhot line, also on the northern fault zone from Iceland to the Antarctic Peninsula, and also on the Persian Gulf to Aleutian Islands fault zone.
On July 31, 2023 at 0:00 (Beijing time), global rainfall is mainly distributed on the northern line from Iceland to the Antarctic Peninsula, which remains stationary for a long time (several months) and is not affected by wind and terrain. Because these raindrops are distributed along the rock fault zone.
On July 21, 2023 at 17:00 (Beijing time), the last path of Du Suri is on the line from Huangyan Island to Erenhot. This fault zone often has neat rainfall zones, even when there are no typhoons, as long as there is groundwater entering the fault zone, water vapor will emerge, and the temperature and flow rate are appropriate to form rainfall. Otherwise, dry and hot winds will form, causing drought.
On September 6-7, 2023, there will be a large area of rainfall in Guangdong Province, and a once-in-a-century rainstorm will occur in Shenzhen and Hong Kong. What is the reason for this heavy rainstorm?
From 14:00 on September 3, 2023 to 14:00 on September 4, 2023 (Beijing time), a high temperature will appear on the Tasmania Lake Baikal fault zone in Australia. The highest temperature will occur on September 6. The high temperature will cause a large amount of water vapor to rise, resulting in rainstorm in many places, large area rainfall in Guangdong Province, and once in a century rainstorm in Shenzhen and rainstorm. The high temperatures in Mongolia are gradually moving eastward.
From 14:00 on September 5th, 2023 to 14:00 on September 6th (Beijing time), the temperature map shows that Inner Mongolia and Australia have the largest temperature areas, and are vigorously expanding towards the two poles. It is not because the sun is particularly strong today, but because a large amount of geothermal energy has emerged underground.
From 14:00 on September 7 to 14:00 on September 8, 2023 (Beijing time), the high-temperature zone in Mongolia moved to the three northeastern provinces of China, and then moved to the Far East of Russia. The high temperature in Australia has shrunk to the north, and the zero degree line in Yakutsk has gradually descended to the south, parallel to this fault zone, meaning that the high temperature below the fault zone is released from west to east.
On September 6, 2023 at 14:00 (Beijing time), a large area of high temperature (locally 35 degrees) appeared around Hulunbuir Lake, and a 10 degree temperature gradient gradient line appeared on the Antarctic Peninsula. The Pacific high temperature was also on the line from Lake Baikal to the Antarctic Peninsula. Why are there multiple large areas of high temperature on this line? The reason why the sun is definitely not shining here is that it must be geothermal.
On September 6, 2023 at 17:00 (Beijing time), the temperature difference boundary at the arrow is located on the fault zone between Lake Baikal and the Antarctic Peninsula. What is the reason for the sudden temperature change here? And the temperature gradient lines in the Antarctic waters are parallel? It remains unchanged for a long time and is not affected by ocean currents. Guangdong Province and Hong Kong are both located on the branch fault zone near this fault zone. The amount of water vapor emitted is large and lasts for a long time, forming a long-term rainstorm.
Typhoon sea anemone caused trouble?
When the typhoon anemone landed, it did not bring a large amount of precipitation. After the anemone disappeared, "residual water vapor" instead brought a long rainstorm? The rainfall belt is not a whole piece, but rather a block by block, and it is directional with neat edges. What is the reason?
From 2 to 14 o'clock on September 6, 2023 (Beijing time), on the 24-hour rainfall map, affected by the landing of typhoon Haikui, a rainstorm belt appears along the coast of Fujian. The rain belt is not a whole, but three pieces. What is the reason for dividing the rain belt? The rainfall zone is distributed along the direction from Urumqi to Fuzhou, with a southwest northeast direction. The rainfall zone is divided into northwest southeast directions and remains stationary for a long time,
On September 7, 2023, from 2 to 14 o'clock (Beijing time), the rainfall belt moved from Fujian to Guangdong, and the module direction of the rainfall belt was also rotating and distributed along the red line. Shangyou County, Jiangxi Province received 30 hours of rainfall, along with several heavy rain points on the line from Zhengzhou to Hong Kong. The rainfall belt turned north south,
From 20:00 on September 7 to 2:00 on September 8, 2023 (Beijing time), Shangyou County, Jiangxi Province, has 30 hours of rain. It is connected with several heavy rain spots from Zhengzhou to Hong Kong, and the rain belt turns to the north-south direction. rainstorm continues in Shenzhen and Hong Kong, and the rain belt moves towards the Pearl River estuary. This is the active period of the fault belt from Lake Baikal to the Antarctic Peninsula. The rain and moisture in Fujian and Guangdong come from this big fault belt, Then it emerged successively along the southeast coastal branch fault zone.
The continuous rainfall area in Shangyou County is the Shangyou River Reservoir, which is the intersection of three fault zones. It is located on the line from Zhengzhou to Hong Kong and is a section of the Baikal Lake to Tasmania Fault Zone, as well as the Baikal Lake to Antarctic Peninsula Fault Zone. Water vapor continues to emerge here, forming a fixed rainfall. The fault zone that runs through the North and South Poles is not only long, but also deep. It is a crust cutting fault zone, and groundwater can enter such a deep fault zone, and the water vapor sprayed out is also indispensable. This is the reason for the once-in-a-century return period.
In fact, Typhoon Haikui is also the water vapor that emerges from the fault zone between Lake Baikal and the Antarctic Peninsula. The causes and consequences of typhoon emergence are detailed in "Typhoon Principles".
Near the Nuomin River crater in the Greater Khingan Mountains, an arc-shaped rainfall belt often appears periodically at fixed locations, sometimes only for a short period of time and cannot be seen. It can only be seen on a daily rainfall map. What type of rainfall is this? Say it's terrain rain, there's no arc-shaped terrain here. Should it be considered cyclone rainfall? This is the old nest of the Northeast Cold Vortex, but does not have the characteristics of a cyclone?
On April 6, 2023, from 2:00 am to 2:00 am on April 7 (Beijing time), an arc-shaped rainfall belt appeared at the Normin River Volcano. How was this rainfall belt formed? Is it terrain rain? How did it rise without such a curved terrain here? How does it flow again? How did this arc-shaped frontal rain form? Why is it periodic? What is this periodic pattern? What does it mean when this arc-shaped rainfall belt appears? Is it the cause of underground volcanic activity?
From 8:00 am on April 17, 2023 to 8:00 am on April 18, 2023 (Beijing time), an arc-shaped rainfall belt appeared at the Nomin River Volcano. How did this rainfall belt form? Is it terrain rain? How did it rise without such a curved terrain here? How does it flow again? How did this arc-shaped frontal rain form? Why is it periodic? What is this periodic pattern? What does it mean when this arc-shaped rainfall belt appears? Is it the cause of underground volcanic activity?
On February 18, 2023 from 8:00 to 8:00 on February 19 (Beijing time), an arc-shaped rainfall belt appeared again at the Nuominhe Volcano Crater, with the precipitation at the center of the arc consistently lower than in the northwest,
From 8:00 am on March 10 to 8:00 am on March 11, 2023 (Beijing time), an arc-shaped rainfall belt appeared at the Nomin River Volcano. How did this rainfall belt form? Is it terrain rain? How did it rise without such a curved terrain here? How does it flow again? How did this arc-shaped frontal rain form? Why is it periodic? What is this periodic pattern? What does it mean when this arc-shaped rainfall belt appears? Is it the cause of underground volcanic activity?
Rainfall appeared within the circle, but it was connected to the western rainfall zone, which means that the water flowing in from the western fault zone turned into rainfall formed by the emergence of water vapor.
How many times have there been arc-shaped rainfall belts at the Normin River Volcano crater before 8:00 am on March 23 to 8:00 am on March 24, 2023 (Beijing time)? Who cares? Who will record it? To study? Who are we selling these things to?
From 8:00 am on September 10, 2023 to 8:00 am on September 11, 2023 (Beijing time), an arc-shaped rainfall belt appeared again at the Nuominhe Volcano Crater, with a large amount of precipitation at the center of the arc. However, there is still a clear boundary with the arc-shaped rainfall belt. Will it still appear in the future? What does the appearance of this arc-shaped rainfall belt mean? Those who are interested in continuing their research,
The intermittent rainfall in Wenkutu Township always occurs in fixed places
In 2022, at 6:00 am, the red arrow was in the rainfall zone, but there was no rainfall? Lowest visibility? Is the visibility lower than in rainy areas? The black arrow is located during rainfall, with good visibility. Rainfall is not the cause of low visibility.
Paste the visibility map at 6 o'clock in the rainfall map, with the red arrow indicating the lowest visibility without rainfall. What causes low visibility?
Paste the temperature map from 3:00 am on August 21, 2022 onto the wind map. The lowest temperature on August 21 is at the low visibility southern vent, while the northern vent is the "eye" of the strong wind at 10:00 am on July 26. The high eye, low visibility, and low temperature all appear in the same place. What is the reason?
The Great Wind Eye (low visibility northern eruption) continued to rain for 4 hours, with the largest amount of precipitation in the center of the rainfall, which is also a concentric circle structure.
The Great Wind Eye (low visibility northern eruption) continued to rain for 4 hours, with the largest amount of precipitation in the center of the rainfall, which is also a concentric circle structure.
The South Cave of the Big Wind Eye receives rainfall, with a low visibility southern eruption continuing for 2 hours. The rainfall center has the largest amount of rainfall and is also a concentric circle structure.
The Great Wind Eye (low visibility northern eruption) continued to rain for 2 hours, with the largest amount of precipitation in the center of the rainfall, which is also a concentric circle structure.
Paste the temperature map at 3:00 on the 21st onto the precipitation map for the past 30 days at 8:00 on the 20th. Wenkutu Township has the lowest precipitation, and the rainfall and low temperature points are the southern eruption of the two low visibility points.
Pasting the visibility map at 8:00 am on the precipitation map of the past 30 days at 8:00 am on the 23rd, Wenkutu Township had the highest precipitation, which showed a reversal compared to yesterday. The precipitation changed from the lowest to the highest, and the highest point of precipitation was the north eruption of the two low visibility points. It shifted from the south eruption to the north eruption, always at the two low visibility points.
Paste the rainfall map at 14:00 on the temperature map at 4:00 on the 21st, where the rainfall and low temperature points are the two points with low visibility,
The temperature at the northern eruption of Wenkutu Township is always higher than the surrounding area? Should the temperature on the mountaintop be low? The heat source must come from geothermal energy, and the temperature in the fire areas from Wenkutu Township to Daxing'anling always cools down first? Because the rising hot air condenses and sinks, forming a low temperature.
In 2022, the temperature at the northern eruption of Wenkutu Township (at the red arrow) will always be higher than the surrounding area? Does the temperature in the fire area from Wenkutu Township to Daxing'anling always decrease first?
In 2022, when the visibility map is pasted into the temperature map, will low visibility areas also be the first to cool down?
In 2022, the visibility at the arrow is always the lowest, with a concentric circle structure and the center being the source of pollution.
In 2023, the lowest visibility occurred at the arrow point (Wenkutu Township), with Mohe, Xinlin Town, Huzhong Town, Tahe County, and Huma County always having the lowest visibility.
In 2023, the fog in Wenkutu Township has a concentric circular structure that remains unchanged for three days. The wind does not spread and the location remains unchanged. There must be a continuous source of replenishment, which is the condensed water vapor in the sky? Or is it the water vapor coming out of the ground?
Paste the visibility map at 8:00 on the 23rd onto the soil moisture map at 10:00 on the 22nd. The two low visibility points are located at the intersection of drought, which is the watershed. The Hailar River basin is dry to the west of the watershed, and the Nomin River and Bila River basins are wet?
From the wind, temperature, visibility, precipitation, and precipitation maps of the past 30 days, it can be seen that Wenkutu Township is always unique, indicating that the geology here is different. When did this unique change begin? When will it end? What does it mean? Wenkutu Township is a township in Oroqen Autonomous Banner, Hulunbuir City, Inner Mongolia Autonomous Region. The geographical coordinates of Wenkutu Township are latitude 49.446 °, longitude 122.484 °, and altitude 550 meters.
The terrain within 3 kilometers of Wenkutu Township includes significant elevation changes, with a maximum elevation change of 225 meters and an average elevation of 583 meters. Within 16 kilometers, there are significant elevation changes (498 meters). Within 80 kilometers, there is a significant elevation change (1077 meters).
The area within 3 kilometers of Wenkutu Township is covered by trees (51%) and grasslands (49%), the area within 16 kilometers is covered by trees (76%) and grasslands (24%), and the area within 80 kilometers is covered by trees (80%) and grasslands (19%).
The red dot is located at 49.55072 north latitude and 122.21159 east longitude, and is the area of the Norman River Volcano Crater. It is two low visibility points and is the highest point of a mountain range, also known as a watershed. It is the birthplace of multiple rivers, and each river is like a big tree, a rainwater collection structure. At first glance, it is an ancient crater. There is still smoke emitting from the volcanic passage, while carrying out heat. The watershed between the Hailar River flowing westward and the Nomin and Bila rivers flowing eastward,
Point rainfall in the Greater Khingan Mountains region
The rainfall in the Greater Khingan Mountains region is always distributed in a point like manner, with point like rainfall occurring in Mohe, Huzhong Town, Xinlin Town, Tahe County, and Huma County, sometimes in patches. How is this point like rainfall formed? Is it frontal rain or terrain rain? Or convective rain?
The rainfall in Mohe County, Tahe County, Huzhong Town, Xinlin Town, and Wenkutu Township is a light rain with a rainfall of less than or equal to 2.5mm within one hour, lasting for 9 hours. The rainfall has not changed, and the rainfall area has not changed. It has been fixed in one place for a long time. How do cold and hot air converge?
Mouse hovering over Mohe County, Tahe County, Huzhong Town, Xinlin Town, and Wenkutu Township displays the rainfall within one hour at different times.
This type of point rain often occurs, and you can refer to previous rainfall maps. These rainfall maps are not only weather forecasts, but also distribution maps of fault zones, indicating the distribution and activity of fault zones.
But at 22:00 on the 19th, the temperatures in Mohe County, Huzhong Town, and Xinlin Town cooled faster than those around them,
By 2:00 pm on the 20th, the temperatures in Mohe County, Huzhong Town, and Xinlin Town were still cooling faster than the surrounding areas. Why has Tahe County been unique in terms of temperature and visibility in these three places for a long time? Sometimes higher than the surrounding area, sometimes lower than the surrounding area? The temperature boundary of the entire Northeast region is parallel and always in the northwest southeast direction?
The first places to cool down have always been Mohe County, Huzhong Town, and Xinlin Town, with the lowest temperatures mostly in the Great Xing'an Mountains fire area in 1987,
From 20:00 on March 1, 2022 (Chinese time) to 9:00 on March 2, the first places to cool down have been Mohe County, Huzhong Town, and Xinlin Town. The lowest temperature areas are basically in the Great Xing'an Mountains fire area in 1987,
From 20:00 on March 2, 2022 (Chinese time) to 9:00 on March 3, the first places to cool down have been Mohe County, Huzhong Town, and Xinlin Town. The lowest temperature area is basically in the Great Xing'an Mountains fire area in 1987, and the lowest temperature zone appears on the line from Huzhong Town to Zhengzhou, which is formed by the rise of high-temperature water vapor from the fault zone and then cooling down.
On January 26, 2022 at 23:00 (Chinese time), the Mohe River continued to cool down, and the city of Erguna continued to cool down at 23:00. At 23:00, visibility became lower and lower due to the emergence of high-temperature water vapor and smoke, which caused more and more smoke to accumulate in the air. The high-temperature water vapor and smoke emitted cooled at high altitude, resulting in a cooling effect.
The Tahe County and Huzhong Town in the Great Khingan Mountains fire area have higher temperatures than the surrounding areas, and look like the eyes of a bear; The temperature in Xinlin Town is lower than the surrounding area and looks like a bear's nose; The temperature in Huma County is higher than the surrounding area. Why does local heating and cooling occur? The high temperature in Tahe County intermittently persists until 8 o'clock, and the temperature boundaries in many places are northwest southeast and parallel. If it is not caused by northwest winds, what is the reason? From the maximum wind speed chart, it is not the distribution pattern of strong winds.
Mohe, Huzhong Town, Xinlin Town, Tahe County, and Huma County are also frequent places with strong winds on the maximum wind speed chart. High temperature water vapor expands underground and generates strong winds, causing water vapor to rise and condense to form rainfall. Water vapor sometimes carries smoke, causing low visibility and low flow rate of high temperature. In low altitude, it causes ground heating, and the flow rate of high temperature water vapor rises to high altitude and sinks after condensation, Causing low ground temperatures.
The reason why high-temperature water vapor often emerges in the Greater Khingan Mountains region is related to the fault zone it is located in, as introduced in the article "China Fault Zone".
On September 11, 2023 local time, Mali, Libya, after a storm, streets were flooded. Last week, storm "Daniel" caused flooding in Greece and then entered the Mediterranean, turning into a hurricane. On September 10th, Hurricane "Daniel" hit multiple areas in Libya. Rainstorm was formed in Libya, with a precipitation of more than 400mm. The rainstorm caused the collapse of two dams, with more than 10000 deaths.
On the weather map from September 5th to 10th, a fixed low pressure appeared in Derna, Libya. Experts believe that the low pressure caused rainfall, but did not say why a fixed low pressure formed here? The appearance of low pressure indicates that hot water vapor is constantly emerging here, and the hot air rises to the surface to generate a suction force, which is called low pressure. Why didn't there be such heavy rainfall when there were low pressures in other places? Low pressure is not the reason for the unprecedented rainstorm.
On September 10, 2023 at 13:00 (Beijing time), Mediterranean Hurricane Daniel made landfall in Libya, forming a triangle of strong winds along three fault zones. It is rare for large areas of strong winds to occur globally, indicating that these three fault zones are active. Libya intersects with the Chukchi Sea to Davis Station fault zone in Antarctica, and the two fault zones intersect at both the North and South Poles, on the fault zone from the eastern edge of Greenland to the Kergueran Islands? The triangular plate surrounded by strong winds is an independent plate, independent of the upper mantle. The fault zones are all crust cutting faults. This summer, heat has been emitted for a long time, causing the temperature of the Mediterranean sea to reach 28 degrees Celsius, which is a constant temperature of 22 degrees Celsius. The reason for the occurrence of strong winds is that a large amount of high-temperature water vapor emerges from this area, which expands and produces strong winds. The water vapor rises and condenses to form rainfall. The path of Hurricane "Daniel" is a branch fault zone, along which water vapor successively emerges.
On satellite maps, the fault zone from the eastern edge of Greenland to the Kergueland Islands intersects with the Chukchi Sea to the Davis Station fault zone in Antarctica. Two fault zones intersect at both the North and South Poles, passing through the mid ocean ridge of the Arctic Ocean, forming a closed fault zone that passes through the mid ocean ridge of the North Atlantic Ocean, the Red Sea, the Kergueland Islands, the South China Sea coastline of Alaska, and the northeast coast of South America, How did such a large and continuous fault zone form? Aren't you curious? The result of not understanding was being washed away by the flood. Looking at the different structures of fault zones, groundwater distribution, activity patterns of fault zones, and rainfall patterns in every part of the world, believe it or not, it is your interests that matter. Let future generations verify it.
On September 10, 2023, at 14:00 and 18:00 (Beijing time), the rainfall belt remained over the peninsula that broke into the Mediterranean in Libya,
On September 10, 2023 at 23:00 and on September 11 at 8:00 (Beijing time), the rainfall belt was still over the peninsula that broke into the Mediterranean in Libya, staying for 17 hours. Why didn't Hurricane "Daniel" leave after landing? Because there is a low voltage here, why is there a low voltage here? The hot air from the land collides with the cold air from the Mediterranean to form rainfall, which seems reasonable. Why hasn't there been such a confrontation before? Because the Mediterranean waters are hot? Why is the Mediterranean Sea warming up? To justify oneself is to deceive oneself, but who would question what experts say? Instead, people who doubt and question are crazy? Dare to question experts!
As long as the dry and hot rock underground does not disappear, when the fault zone opens, a continuous stream of water vapor will emerge from the underground. We hope that the local people will be mentally prepared.
The consequences of the disappearance of geothermal energy
This is the riverbed of the Yufu River in Jinan City, where layers of gravel and soil are carried down by floods from upstream. Each layer represents a flood, with the initial flood being large and carrying gravel; Later, the flood was small and only soil was left behind. Now the Yufu River is basically cut off. In addition to the construction of Huangchao Reservoir and Wohushan Reservoir in the upper reaches, the annual precipitation in Jinan and Mount Taishan is getting less and less. Many heavy rain forecasts do not have rainfall, what is the reason for the decreasing precipitation in the Yufu River Basin? It is because the geothermal energy underground the Yufu River is decreasing.
This is the bottom profile of the Yufu River. These flowing sand suddenly solidified during the flow process, with a solidification area of only about 100 square meters. The length along the river is about 40 meters, the width is about 3 meters, and the thickness is about 50 millimeters. There are branches at the bottom. This solidified river bottom was neither buried by loose gravel nor raised, indicating that the solidification occurred in the past few hundred years. Otherwise, either it was buried by sediment or the raised river bottom (loose sediment around it was washed away). These solidified sand is not metamorphic rock, called water burst rock. It is magma from the underground magma chamber at the bottom of the river that seeps into the sand particles, solidifying the sand. For detailed information, please refer to the article "Principles of Water Explosion". The amount of rock burst in the Yufu River decreases and decreases until it disappears, indicating that the underground magma chamber has dried up and the geothermal energy has disappeared. Even if there is surface water entering the magma chamber, it cannot be heated into steam and cannot form a phenomenon of water vapor rising, so rainfall cannot occur. The low temperature of geothermal energy has caused dry and hot winds, resulting in drought and less rainfall in the Yufu River basin.
Human understanding of geothermal energy
At the 2023 Geothermal Conference, modern people believe that geothermal energy is an inexhaustible source of energy. They are frantically exploring geothermal energy and exchanging methods for extracting geothermal energy.
With such large-scale extraction of geothermal energy, there will always be a day when geothermal energy is depleted, rainfall disappears, and drought persists,
In the past, primitive forests were extensively cut down and then closed down for afforestation; Large scale fishing of marine fish followed by a fishing ban; Developing industries on a large scale, polluting rivers and air, and then regulating river channels; In the past, deep wells were drilled for irrigation, and when the groundwater decreased, water was replenished to the groundwater; In the past, giving birth was fined, but now giving birth is rewarded; What method will be used to heat the underground when the geothermal energy is depleted and it no longer rains? Vegetable greenhouses utilize geothermal energy. Can vegetables grow in greenhouses without geothermal energy? What will happen if the temperature difference between day and night increases without geothermal energy? Why do humans always do things they regret? Do not turn back until you hit the south wall, and then hit the north wall after hitting the south wall. Always wanting to change nature, unable to protect it?
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