The ming reason of the earthquake，Successfully solved

网上翻译，存在一些翻译错误。



Ever learn basic blank,【 how is the relationship among the lakes and basins of  】 get breakthrough: geography knowledge and thorough description, the whole process of basin mation is such: (on the) negative terrain - lake (lake, lake) - marsh (wetland) - land within the lake basin, basin () in lake basin. That is to say, lake sedit can be turned into a basin, a lake, water is the basis of all the basin mation, this important discovery, thoroughly break the study had trouble  y years.



Basin, on alluvial plains into coal, mineralization, geological disasters played a decisive role

Author: Guo Deng.

Introduction

On the earth, any life is closely related to the "carbon elet", and the carbon elet cycle is repeated. Life needs to consume carbon-containing organic substances and emit carbon dioxide. The earth also foll this rule. The earth also needs to  up. Carbon-containing organic substances m coal, oil, natural gas, etc. inside the earth. After volcanoes, earthquakes, and hu exploitation and use, carbon dioxide is emitted into the air. The carbon dioxide emitted from the air is absor by trees and plants again using ynthesis. Carbon dioxide is converted into organic matter, which is reflected in the m of plants. Some plants are digested by animals, and some are traned inside the earth through rivers, ming a system of repeated "carbon" cycles.

y years, I have been thinking about the question, how exactly is coal med? The oril theory of coal mation, "coal is the aculation of trees, vegetation, animal corpses, and swamps, has evolved over y years to m coal." Based on this theoretical ysis, why can't you see the aculation of trees and animal corpses on land? On the other hand, coal mines are very large. Where can there be so y trees and carces?

First, how is natural gas med?

After y years of thinking and research, I finally found that there is only one sibility to aculate carbon-containing organic matter. It is to tran carbon-containing organic matter such as trees, vegetation, animal carces to lakes, low-lying areas through the movet of river water. Years of seditation and rition have turned lakes and low-lying areas into basins and alluvial plains.

Lakes and low-lying areas. They m natural conditions that collect all kinds of sur materials. Carbonaceous objects on the sur are impacted and migrated by water and rivers. They are deited by lakes and low-lying areas. Later, the lake evolved into dry land, that is, the lake --- the swamp zone-dry

The terrestrial basin structure. The low-lying areas med sedits during multiple shocks, and bee an alluvial plain  a long time. And in this tens of thousands of years. Lakes and alluvial plains must aculate inestimable trees, vegetation, sedit, and fish carces. During the years of aculation and deition, lakes and alluvial plains have deited  amounts of sedits, tens of meters, hundreds of meters, Even thousands of meters thick, then med a basin-like structure of land, alluvial plains. In this way, a large amount of carbonaceous material is stored underground, thereby completing the aculation of carbonaceous material. And this process is completely similar to the "biogas digester principle" in life.

Under the action of high temperature, high pressure, and electricity, any substance will undergo chemical reactions and chemical changes. A large amount of carbonaceous substances are deited underground. Under certain conditions, the conversion of substances of the same elet will occur, ming carbonaceous solids, liquids, Gas and other substances. According to the principle of methane gas mation in biogas digesters, carbon-containing gases, solids, and liquids will inevitably appear in basins and alluvial plains where carbon-rich materials are deited. The gas is likely to be natural gas.

Second, is coal also produced inside basins, alluvial plains, and borders with mountains?

An important phenoon on the earth is the movet of water. Rainwater and rivers flush the sur of the earth, tran and collect carbon-containing organic matter on the ground, and finally stay in lake basins and low-lying areas. Basins and alluvial plains have carbon-containing organic matter stored. conditions of. Basins and alluvial plains have migrated over y years of river water to m a natural carbon material storage. This is a significant quantitative change process. When the amount of material changes reaches a certain level, qualitative changes occur. Basins and alluvial plains are , and a series of chemical changes cannot be avoided.

We know that in chemical changes, a chemical change in a substance can produce thermal energy, gas, or even an explosion. From this perspective, then, there are often earthquakes on the earth. Under such conditions and geographical locations, a  energy release is generated, which causes the earth to shake?

At the same time, while the underground releases  energy, the underground carbon-containing substances will undergo further chemical changes under the action of thermal energy, and the carbon-containing gas substances will evolve into solids, which will then m coal? According to inference ysis, natural gas and coal should exist in the same location, in basins, alluvial plains, and adjacent mountain belts, and earthquakes should also occur in such geographical locations. This evolutionary process should be seditary basins and alluvial plains—natural gas—earthquake—coal. Attach the following figure:


If the above reasoning is correct, then we can draw the following conclusions:

1. The aculation of carbon elets in the earth must be through the migration of river water. After years of deition and rition, carbon-containing substances Buried into the ground, ming basins and alluvial plains.

2. Seditary basins and alluvial plains will definitely produce natural gas, which will m carbon-containing solids, liquids, and gases under the action of chemical reactions.

3. In the area where the earthquake occurred, there must be an impact plain or basin around it. The size of alluvial plains and basins determines the size of natural gas, coal mines, and earthquakes.

4. In and around it, there will be no basins or alluvial plains, and earthquakes will never occur.

5. If it is said that natural gas is med in basins and alluvial plains, and the natural gas movet direction is yzed, according to the degree of geological denseness, the sur density of basins and alluvial plains is greater than the density of mountain mes. Gas movet will move along the mountain mes. There are crevices in the rocks, and the natural gas med in the basin and alluvial plains will be stored in the mountain. According to the flammable and explosive characteristics of natural gas, there is the sibility of expansion and explosion, which will cause geological disasters. Most of the eenters come from such geographical locations.

6.  a large alluvial plain, there must be a  amount of natural gas and large coal mines in and around it. Conversely, without such a geographical location, there will not be a  amount of natural gas and coal mines. The alluvial plain is large and the natural gas reserves are also large. Large earthquakes and coal mines.

Based on the above conclusions, verify with facts. According to Baidu search, relevant rmation materials were copied.

3. The relationship between major earthquakes and alluvial plains and basin areas

1. Did the "Wenchuan earthquake" occur in alluvial plains or in areas around the basin?

The Wenchuan Earthquake. The earthquake area it covered was the ten most severe. Wenchuan County, Beichuan County, Mianzhu City, Shifang City, Qingchuan County, Maoxian County, An County, Dujiangyan City, Pingwu County, Pengzhou City;

found from the above earthquake locations, see the figure below, these earthquake areas surround the Panxi Plain, but also It is the northern part of the Chengdu Plain.

According to  data, the Chengdu Plain develops on the basis of northeast-southwest syncline structures, and the 8 alluvial fans including the Minjiang River, Minjiang River (Mianyuan River, Shiting River, and Minjiang River) and their tributaries oriting from the northwestern Sichuan Plateau overlap Combined to m a complex alluvial fan plain. The whole sur of the plain is very thick with loose sedits, and the Quaternary sedits are covered with silt and clay. The structure is good and suitable  farming. It is the most fertile soil in Sichuan Province, with an elevation of 450 to 750 meters and a flat terrain.

The Panxi Plain lies between Longquan Mountain, Long Mountain, and Laoshan Mountain, starting from Jiangyou in the north and Letong Wutong Bridge in the south. Including the Minjiang alluvial plains between Mianyang, Jiangyou and Anxian in the north, the Minjiang and Minjiang alluvial plains in the middle, and the Qingyi and Dadu river alluvial plains in the south.


According to the location of these severely affected areas, it was found that Wenchuan County, Beichuan County, Mianzhu City, Shifang City, Qingchuan County, Mao County, An County, Dujiangyan City, Pingwu County, and Pengzhou City connected these cities in turn and surrounded the Chengdu Plain. According to the map, according to the map, these cities were equally severely affected, and according to the map, the edge of the Chengdu Plain is the center of the earthquake.



2. Did the Ludian earthquake occur in the alluvial plain or basin area?

At 16:30 on August 3, 2014, a magnitude 6.5 earthquake occurred in Ludian County (27.1 degrees north latitude and 103.3 degrees east longitude) in Zhaotong City, Yunnan Province, with a focal depth of 12 kilometers and 1335 aftershocks.

The highest intensity of the Ludian earthquake disaster area is degree, covering an area of ​​only 90 square kilometers. The major axis of the isoseismal line is generally north-north-west, and the total area of ​​the degree area and above is 10350 square kilometers, causing a total of Yunnan Province and Sichuan Province. 10 counties (districts) of Guizhou Province were affected, including Ludian County, Qiaojia County, Yongshan County, Zhaoyang District of Zhaotong City, Yunnan Province, Huize County of Qujing City; Huidong County, Ningnan County of Liangshan Yi Autonomous Prefecture, Sichuan Province Butuo County and Jinyang County; Weining Yi and Hui Autonomous County of Bijie City, Guizhou Province.

Data show that Zhaolubazi starts from the foot of Liangfengtai Mountain in Zhaoyang District in the east, and a little outside to the neighboring Ludian County in the west. The overall terrain is high in the southwest and low in the northeast, with an area of ​​about 525 square kilometers, which is one of the four dams in Yunnan. The inner dams of the dam are opite to each other and the terrain is flat. Zhaolu dam is located in Zhaotong City in the northeast of Yunnan Province. Zhaotong City s the Sichuan Province (Jinsha River) on the northwest side, borders Bijie City, Guizhou Province on the southeast, and Yunnan Province on the south. It is adjacent to Huize County, Qujing City, and is the junction of Yunnan, Guizhou and Sichuan.

The highest altitude in Zhaotong City (Yaoshan, Qiaojia County) is 4,040 meters, and the lowest altitude is 267 meters in Gunkanba, Shuifu County. Zhaolubazi is located in the heartland of Zhaotong City. It runs through Zhaoyang District and adjacent Ludian County from north to south, so it is called Zhaolubazi.


Zhaolubazi borders Jinyang County in the north, Huize County in the south, Ludian, Zhaoyang District in the north and south, and Qiaojia County in the west.

Combining the above statet and map, it is not difficult to conclude that Zhaolubazi is in the center of the 8.3 Ludian earthquake.

3. Did the great earthquake in Peru occur in the alluvial plains or basin areas?

The data sh that the Amazon Plain is located in northern South America, in the middle and lower reaches of the Amazon River, between the ana Plateau and the Brazilian Plateau, west of the Andes, and east of the Atlantic Ocean. It crosses the territories of Brazil, Peru, Colombia and Bolivia, covering an area of ​​5.6 million square meters. Kilometers (including Brazil's more than 2.2 million square kilometers, accounting  about 1/3 of the country's territory), is the world's largest alluvial plain.

Local media in Peru reported that at around 18:00 local time on the 24th (about 6 am Beijing time on the 25th), an earthquake measuring 7.5 on the Richter scale struck the Madre de Dios region on the border between central and eastern Peru and Brazil. According to the China Earthquake Network Center, the magnitude of the earthquake was 7.7 and the focal depth was 610 kilometers.


The quake was felt in several parts of Peru, Brazil, Argentina, Chile, Colombia, Bolivia and Ecuador.

In fact, Chile, Colombia, Bolivia, and Ecuador have suffered several major earthquakes around the Amazon Plains.

According to the map, these countries with large earthquakes are located around the Amazon Great Plains. Natural gas extraction in these countries is also staggering.

4. Did the Taiwan earthquake occur in the alluvial plains or basin areas?

According to the data, Taichung and Nantou counties in Taiwan were the est hit by the 921 earthquake. Statistics on the day after the earthquake showed that the death toll was more than 2,000, with 6,534 and 2,308 people trapped. The disasters in Taipei County, Taipei City, Miaoli County, Taichung City, Changhua County, and Yunlin County were severe.

Tainan Plain The largest plain in Taiwan Province, is an alluvial plain with an area of ​​5,000 square kilometers. Taipei County, Taipei City, Miaoli County, Taichung City, Changhua County, and Yunlin County are located on the east side of the "Tainan Plain". The Tainan Plain is 5000 square kilometers, and the 921 earthquake was in the Tainan Plain.


Another note:

Baidu data. In 1556, a large earthquake occurred in the Weihe River Basin north of the Qinling Mountains in the south of Shaanxi Province, China. The reason  the  damage caused by the Huaxian earthquake is that the eentral area is located in the river valley basin and alluvial plain, and the loose sedits are thick.
At around 8 pm on January 3, 1739, the largest magnitude 8 earthquake in the area's history occurred in Pingluo and Yinchuan. The location of the earthquake was in the Yinchuan Plain. The Yinchuan Plain is the alluvial plain of the Yellow River. The groundwater is buried very shallow and even overfl the sur. The groundwater is not excreted smoothly and the soil is heavily salted.

According to such thinking and ysis, combined with satellite maps, all seditary basins and alluvial plains in the world can be found. Combined with the earthquakes that occur there, you will find that there are various earthquakes in this geographical location. There are various basins and "alluvial plains" around the major earthquakes, or in the areas surrounded by the severely affected areas.

All historical earthquakes have one thing in common, and each earthquake corresponds to a large shock plain or basin. When we take out an earthquake event arbitrarily, this phenoon exists. In areas with earthquakes, there is such an "alluvial plain". On the other hand, in areas without nearby "alluvial plains", there is no earthquake. E, Alluvial plains, will the basin produce natural gas?

According to Baidu data, in the second half of 2015, CNPC made a major breakthrough in shale gas exploration in the Sichuan Basin. Approved by the Ministry of Land and Resources, PetroChina has added a gas-bearing area of ​​207.87 square kilometers, proven shale gas geological reserves of 163.531 billion cubic meters, and technically recoverable reserves in Well 202, Ning 201, and YS108 in the Sichuan Basin. 40.883 billion cubic meters. This is the first time that CNPC has submitted proven geological reserves of shale gas.

As an unconventional natural gas resource, there is no domestic experience on how to implet effective exploration and developt of shale gas. Starting from the comprehensive geological evaluation in 2007, PetroChina has ecipated the mind and innovated practice, and created more than 10 domestic firsts, including shale gas industrial gas wells and shale gas “factory-operated” operating platms, ming shale gas resource evaluation, Block optimization, fast drilling, long horizontal section ceting, staged fracturing, fracturing fluid recovery and reuse technology series, has aculated "the deployt of well site platm, drilling fracturing factory, skid-mounted equipt "Engineering service marketization, integration of organization and aget" as the core experience of reducing costs and increasing efficiency will play an important role in promoting the scale-efficient developt of shale gas resources in China.

As of August 27, 2015, in the above proven reserves area, 47 gas wells have been put into operation, with a daily gas production of 3.62 million cubic meters, which can guarantee 2.8 million three househ gas.

A search of the alluvial plains or basins of every country in the world will have this phenoon. There are countries in the great plains or basins where coal and natural gas are very abundant, and major earthquakes are also frequent. Taking out the world-famous Great Plains, the conclusions are the same, and no more examples are given.

After the above ysis and demonstration, the causes of coal mines, natural gas, and geological disasters and their geographical locations are already very clear. The examples and facts given are in full compliance with the viewpoints set th in the article. From this point of view, the geographical location of various mineral deits is clear, and the causes of geological disasters are also found.

The above-tioned viewpoints have profound significance  the rational developt of the earth and the protection of the earth's land. According to this theoretical point of view, the natural disasters med by the earth over the years can be found in corresponding countermeasures to avoid major casualties and losses of life and property caused by the disaster. From this point of view, we will also discover the past of the earth, predict the future of the earth, and break through y unsolvable problems in the past.



"Reference"

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2.      liang-ming liu peng in the province. The history of the diwa theory of contribution [J]. Journal of central south university of technology, 1999, 030 (004) : 345-349.