JP5755905B2 - Global environment improvement - Google Patents
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- JP5755905B2 JP5755905B2 JP2011043002A JP2011043002A JP5755905B2 JP 5755905 B2 JP5755905 B2 JP 5755905B2 JP 2011043002 A JP2011043002 A JP 2011043002A JP 2011043002 A JP2011043002 A JP 2011043002A JP 5755905 B2 JP5755905 B2 JP 5755905B2
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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Description
本発明は、地球温暖化対策、オゾン層修復、及び海洋酸性化防止に関するものである。The present invention relates to global warming countermeasures, ozone layer repair, and ocean acidification prevention.
地球の長い歴史と云う観点から見ると地球温暖化とオゾン層破壊は同時に起きている。
これは両者の原因は一つである、と云う事を暗に示している。
然し現在、提唱されている原因は何故か別々である。(温暖化効果ガス説とフロンガス説)From the viewpoint of the long history of the earth, global warming and ozone layer destruction occur simultaneously.
This implies that the cause of both is one.
However, the reasons that have been proposed at present are different. (Global warming effect gas theory and Freon gas theory)
二酸化炭素が温室効果ガスとして問題になっているが、二酸化炭素は化石燃料に含まれる炭素が燃え、酸化熱を放出して出来た、いわば「燃え滓」である。
世界中のエンジニアが、その「燃え滓」を減少させようと躍起になっているが、放出した酸化熱及び酸素濃度減少には、何故か視野が向いていない。Carbon dioxide has become a problem as a greenhouse gas, but carbon dioxide is the so-called “burning flame” produced by burning carbon contained in fossil fuels and releasing oxidation heat.
Engineers all over the world are eager to reduce the “burning flame”, but they are not focused on reducing the released heat of oxidation and oxygen concentration.
地球の酸素絶対量は一定である。
植物が熱を吸収し、酸素を製造している様に思われがちだが、実際は二酸化炭素と水を分解して、酸素を排出し、熱を吸収しているに過ぎない。
CO2−−−>C+O2−energy 2H2O−−−>2H2+O2−energy
太古の植物は炭素、水素及び、大気熱を吸収して生育し、化石燃料となった。
然し、人類は古代の太陽熱と二酸化炭素を吸収した化石燃料を乱費し、その結果、限られた酸素を消費し,熱を放出している。
よって現在の地球は古代と現在の太陽熱に晒される羽目になった。
更には農地拡大による森林伐採で、熱の吸収源と酸素の供給源を人類は減少させている。The absolute amount of oxygen on the earth is constant.
Although it seems that plants absorb heat and produce oxygen, they actually break down carbon dioxide and water, expel oxygen, and absorb heat.
CO 2 ---> C + O 2 -energy 2H 2 O ---> 2H2 + O 2 -energy
Ancient plants grew by absorbing carbon, hydrogen and atmospheric heat and became fossil fuels.
However, mankind overwhelmed ancient solar heat and fossil fuels that absorbed carbon dioxide, resulting in the consumption of limited oxygen and release of heat.
Thus, the present earth is exposed to the ancient and present solar heat.
In addition, deforestation by expanding agricultural land has reduced the amount of heat absorption and oxygen supply by mankind.
フロンガスが火山の噴火で上空まで昇り、強い紫外線で分解され、発生した塩素がオゾンを壊している、と言われてきた。
(ノーベル科学賞を受賞したアメリカのシャーウッド・ローランド博士による説)
本当だろうか?
フロンガスの質量は大気中に存在する他の気体と比較して、突出して重い。
各元素の1モル当たり重量
水素 2g 酸素 32g オゾン 48g 二酸化炭素 44g
窒素 28g フロンガス:CFC−12 121g CFC−115 154.45g
そのフロンガスが火山の噴火で上空まで昇り、強い紫外線で変化し、「塩素がオゾン層を壊す」とは、とても考え難い。(「図11」参照)
桜島を管轄する鹿児島測候所に問い合わせると、「噴火口近くでは上昇気流は観測されるが市街地(低地)での上昇気流は観測されない。」との事だった。It has been said that chlorofluorocarbon gas rose to the sky by an eruption of a volcano, was decomposed by strong ultraviolet rays, and the generated chlorine destroyed ozone.
(Theory by Dr. Sherwood Roland, who won the Nobel Prize in Science)
Is it true?
The mass of Freon gas is much heavier than other gases present in the atmosphere.
Heavy hydrogen per mole of each element 2g Oxygen 32g Ozone 48g Carbon dioxide 44g
Nitrogen 28g Freon gas: CFC-12 121g CFC-115 154.45g
It is very difficult to imagine that the chlorofluorocarbon gas rises to the sky in the eruption of a volcano, changes with strong ultraviolet rays, and “chlorine breaks the ozone layer”. (See "Fig. 11")
An inquiry to the Kagoshima weather station, which has jurisdiction over Sakurajima, said, “Updrafts are observed near the crater, but no updrafts are observed in urban areas (lowlands).”
土木技術者は酸素濃度に特に敏感である。
地下で作業する労働者の命を守る為に常日頃から酸素濃度を確認している。
その酸素濃度が年々、減少している。
(何時の時点か不明だが昔24%、現在20.9%と聞き伝えている。)
二酸化炭素が増えているのだから、酸素減少は当然の事と言える。
化石燃料に含まれる水素と大気中の酸素の化合によって水も増加し、大気中の酸素濃度減少は更に加速している。
(冬には、車のマフラーから水蒸気が吹き出しているのが、簡単に確認出来る。)Civil engineers are particularly sensitive to oxygen concentrations.
In order to protect the lives of workers working in the basement, the oxygen concentration is constantly checked.
The oxygen concentration is decreasing year by year.
(The time is unknown, but 24% in the past and 20.9% at present)
Since carbon dioxide is increasing, oxygen reduction is natural.
The combination of hydrogen contained in fossil fuels and oxygen in the atmosphere has increased water, and the decrease in oxygen concentration in the atmosphere has further accelerated.
(In winter, it can be easily confirmed that water vapor blows out from the car muffler.)
火星の二酸化炭素濃度は大気の95%、地球では0.03%である。(辞林21)
酸素濃度の減少が3%強に対し、二酸化炭素濃度が0.03%とは−−−
増え続ける二酸化炭素は何処へ−−−? 海に吸収され、海洋酸性化に繋がった!
又、火星ではメタンガスが噴出している(2010年8月31日朝日新聞科学面)との事だが、火星では地球の3000倍の二酸化炭素濃度と、その層の厚さに接触した水素はメタンガス に変化し、あたかも地下から吹き出して居ると思われているのでは ないか?
質量が地球の1/10の火星では、水素がゆっくりと上昇し二酸化炭素と接触しても不思議ではない。(無重力では全ての物体の質量が無くなる。)
火星では、二酸化炭素と水素で「縦の化合」が起きているのではないか?(「図1」参照)The carbon dioxide concentration on Mars is 95% of the atmosphere and 0.03% on Earth. (Lit Lin 21)
The decrease in oxygen concentration is just over 3%, while the carbon dioxide concentration is 0.03%.
Where is the increasing amount of carbon dioxide? It was absorbed into the sea and led to ocean acidification!
Also, it is said that methane gas is ejected on Mars (Asahi Shimbun, August 31, 2010), but on Mars, hydrogen that is in contact with the carbon dioxide concentration of 3000 times the Earth and its layer thickness is methane gas. Isn't it supposed to be blowing out from the basement?
It is no wonder that hydrogen rises slowly and comes into contact with carbon dioxide on Mars, which is 1/10 of the Earth's mass. (With zero gravity, the mass of all objects is lost.)
Isn't there a “longitudinal combination” of carbon dioxide and hydrogen on Mars? (See “Figure 1”)
火星では水が流れた形跡がある、と前出の朝日新聞科学面の記事で知った。
これは火星誕生(灼熱)から現代(酷寒)に至るまでの過程で起こった。
地球と火星との環境相違点(インターネット「ウキペディア」よる)
1.火星の公転1.88年
2.自転周期24時間37分
3.平均温度−43度(−130度〜0度C)
4.火星の半径は地球の1/2
ーーー>体積は1/8となり地球程の四季は考え難い。 又、絶対温度は273°Cである。
依って1日の気圧差は地球とは比較にならない程 大きい。
−−−>静電気の量は想像出来ない程、多い筈である。
昔、火星は水の流れる環境であったが、今は氷点下の極寒である。 気温激減の理由は何か?
1.火星は太陽系で4番目の惑星である。ーーー>太陽からの熱は地球より少ない。
2.メタンガス大量発生による大気熱吸収が起こっている。
以上から火星の気温が低いのは当然の結果であって、火星の気温が低いと云う事がメタンガス大量発生の原因では無い。I learned from a scientific article on the Asahi Shimbun that there was evidence of water flowing on Mars.
This happened in the process from the birth of Mars (burning) to the present (extreme cold).
Environmental differences between the Earth and Mars (according to the Internet “Ukipedia”)
1. Revolution of Mars 1.88 2.
4). Mars radius is 1/2 of Earth
----> Volume is 1/8 and it is difficult to think of the four seasons around the globe. The absolute temperature is 273 ° C.
Therefore, the atmospheric pressure difference per day is so large that it cannot be compared with the Earth.
----> The amount of static electricity should be unimaginable.
In the past, Mars was an environment where water flowed, but now it is extremely cold below freezing. What is the reason for the drastic decrease in temperature?
1. Mars is the fourth planet in the solar system.ー ー ー > The heat from the sun is less than the Earth.
2. Atmospheric heat absorption is occurring due to the massive generation of methane gas.
From the above, it is a natural result that the temperature of Mars is low, and the fact that the temperature of Mars is low is not the cause of the large amount of methane gas generation.
地球温暖化の原因は化石燃料及び大気中の酸素を消費しての「酸化熱」である。
そこで減少した酸素を増加させる方法を考える。The cause of global warming is “oxidation heat” by consuming fossil fuel and oxygen in the atmosphere.
Therefore, a method for increasing the decreased oxygen is considered.
オゾン層破壊の原因は「慢性的な酸素減少」である。(「図2,3」参照)The cause of ozone depletion is “chronic oxygen depletion”. (See “Figures 2 and 3”)
海洋酸性化とは「海水の二酸化炭素吸収による現象」である。Ocean acidification is a phenomenon caused by absorption of carbon dioxide from seawater.
海水を電気分解することで塩素,水素を発生させる。「図4参照」−−−>アルカリ化する。
その時、海水は水酸化ナトリウムへと徐々に変化する。
−極 2Na+2H2O−−−>2NaOH+H2−−−(化1)
また、発生した塩素で水酸化ナトリウム溶液を中和すると酸素が発生する。
その酸素はオゾン層修復の為に放出する。
4NaOH+2Cl2−−−>4NaCl+2H2O+O2−−−(化2)
海水に溶け込んだ貴金属が−極に付着する利点もある。Chlorine and hydrogen are generated by electrolyzing seawater. "Refer to FIG. 4"---> alkalize.
At that time, seawater gradually changes to sodium hydroxide.
- pole 2Na + 2H 2 O ---> 2NaOH +
Further, when the sodium hydroxide solution is neutralized with the generated chlorine, oxygen is generated.
The oxygen is released to repair the ozone layer.
4NaOH + 2Cl 2 ---> 4NaCl + 2H 2 O +
There is also an advantage that precious metals dissolved in seawater adhere to the negative electrode.
発生した水素(「化1」参照)はエネルギーとして使用、又はメタンガス生成材料として利用する。(「図4」参照)
メタンガスを燃焼すると二酸化炭素と水を発生させ、熱を放出する。
CH4+2O2−−−>CO2+2H2O+energy
逆に水素と二酸化炭素を化合するとメタンガスと酸素が発生し、熱を吸収する筈である。(「エネルギー不変の法則」より)
その時、体積変化も生じるため減圧状態になる。
反応が進むと共に減圧された化合管に、海水を電気分解して出来た水素と、二酸化炭素を供給すると徐々に化合する。(「図6」参照)
その結果、メタンガスと酸素が発生し、熱を吸収する。(「化3」参照)The generated hydrogen (see “
Combustion of methane gas generates carbon dioxide and water, releasing heat.
CH 4 + 2O 2 ---> CO 2 + 2H 2 O + energy
Conversely, when hydrogen and carbon dioxide are combined, methane gas and oxygen are generated, and heat should be absorbed. (From "Energy Invariance Law")
At that time, the volume is changed, and the pressure is reduced.
As the reaction progresses, hydrogen is generated by electrolyzing seawater and carbon dioxide is fed into a compound pipe that has been depressurized. (See “Figure 6”.)
As a result, methane gas and oxygen are generated and absorb heat. (See “
地球は火星と比較して重力が強く、二酸化炭素濃度も少ない為、水素との接触時間が短く、火星のような「縦の化合」は起こり難い。(「図1」参照)
然し、火の玉現象でも明らかな様に、メタンガスは地球上でも自然発生している。
地球上では、発生したメタンガスと酸素は、水素と二酸化炭素との間に入り込み、膜となって両者の化合を阻害する。(「図7」左図参照)
(その結果、水素と二酸化炭素は化合しないと思い込み、微生物によるメタンガス生成論に至ったのではないのだろうか? 微生物によるメタンガス生成を確認した事実はない!)
そこで化合管に緩い勾配を付け水素を流入すると、左側の隔離璧に入り込んでいたメタンガス、酸素等の重い気体は下方に追い出され、右側の隔離壁に移動する。(「図6」参照)The Earth is stronger in gravity than Mars and has a low carbon dioxide concentration, so the contact time with hydrogen is short, and “vertical combination” like Mars is unlikely to occur. (See “Figure 1”)
However, as is evident from the fireball phenomenon, methane gas occurs naturally on the earth.
On the earth, the generated methane gas and oxygen enter between hydrogen and carbon dioxide to form a film and inhibit the combination of the two. (Refer to the left figure of "Fig. 7")
(As a result, it is assumed that hydrogen and carbon dioxide do not combine, and it may have led to the theory of methane gas generation by microorganisms. There is no fact that methane gas generation by microorganisms has been confirmed!)
Therefore, when hydrogen is introduced with a gentle gradient in the compound tube, heavy gases such as methane gas and oxygen that have entered the left isolation wall are expelled downward and move to the right isolation wall. (See “Figure 6”.)
化合管下部には孔を設け、二酸化炭素を補給して濃度上昇を図る。(「図6」参照)
(この時「化3」で示す様に、化合管内部は減圧されている状態になっている。)A hole is provided in the lower part of the compound tube, and carbon dioxide is replenished to increase the concentration. (See “Figure 6”.)
(At this time, as indicated by “
化合管の先端には収集ボックスを設ける。
その中には残留水素、メタンガス、酸素、二酸化炭素が混入されている。(「図5」参照)
そこに紫外線を照射すると酸素はオゾンに変化する。(「図6」参照)
4者の中で1番重くなったオゾンを収集箱の底部から取り出してオゾン層修復に充てる。
軽い水素とメタンガスは上部から取り出し、両者の液化温度の違いで分離する。A collection box is provided at the tip of the compound tube.
Residual hydrogen, methane gas, oxygen and carbon dioxide are mixed in it. (See “Figure 5”.)
When ultraviolet rays are irradiated there, oxygen changes to ozone. (See “Figure 6”.)
The ozone heaviest among the four is taken out from the bottom of the collection box and used for ozone layer repair.
Light hydrogen and methane gas are taken from the top and separated by the difference in liquefaction temperature between the two.
火星では大量のメタンガスが発生しているが原因究明には至っていない。
その為、地球上でメタンガスを発生させる場合、色々な事を想定する事が必要となる。
酸素に紫外線を照射すると即座にオゾンに変化する様に、自然界では何が起こるか判らない。
そこで、化合管の内部に紫外線、超音波等を与えて反応を見る。(「図5」参照)A large amount of methane gas is generated on Mars, but the cause has not been investigated.
Therefore, it is necessary to assume various things when generating methane gas on the earth.
I don't know what happens in nature, as it immediately changes to ozone when it is exposed to ultraviolet rays.
Therefore, the reaction is observed by applying ultraviolet rays, ultrasonic waves, etc. inside the compound tube. (See “Figure 5”.)
海洋酸性化対策に付いては、潮の干満を利用して満潮時の海水を海水減圧層に注入し、減圧して海洋酸性化の原因である二酸化炭素を排出する。(「図9」参照)
然し、この工程で酸素も排出されるので、無酸素状態になった海水には酸素を混入してから放出する。
また、減圧によるプランクトン等、微生物に対する環境破壊を防止する必要がある。As for ocean acidification measures, seawater at high tide is injected into the seawater decompression layer using the tidal range, and the pressure is reduced to discharge carbon dioxide that causes ocean acidification. (Refer to "Fig. 9")
However, since oxygen is also discharged in this step, oxygen is mixed into the seawater that has become oxygen-free and released.
Moreover, it is necessary to prevent environmental destruction to microorganisms such as plankton due to reduced pressure.
メタンガスを生成する事で、二酸化炭素に化合した酸素は離脱し、熱を吸収する。
その結果、酸素濃度は増大し、オゾン層修復、地球温暖化防止に寄与出来る。By generating methane gas, oxygen combined with carbon dioxide is released and absorbs heat.
As a result, the oxygen concentration increases, which can contribute to ozone layer repair and global warming prevention.
海水に吸収された二酸化炭素を取り除く事で海洋酸性化防止、海水温上昇防止に寄与出来る。Removing carbon dioxide absorbed by seawater can contribute to the prevention of ocean acidification and seawater temperature rise.
インフラ整備によって作り上げた都市部及び肥沃な農地である三角洲を地球温暖化による海水面上昇から守る事が出来る。It can protect urban areas created by infrastructure development and the fertile farmland of the deltas from rising sea levels due to global warming.
海水から二酸化炭素を除去して魚貝類を海洋酸性化から守り、更に海水温を低下する事で「海の生体保護」に貢献する事が出来る。By removing carbon dioxide from seawater, fish and shellfish can be protected from ocean acidification, and by lowering the seawater temperature, it can contribute to "sea biological protection".
車社会、又は産業界等のエネルギーとして水素、又はメタンガスを活用する。
然し生成した水素、メタンガスをエネルギーとして全て消費すると、地球環境改良という当初の目的から大きく外れてしまう。
そこで残った水素、又はメタンガスを地下に埋蔵し封印すれば地球環境改良の効果は大きい。
津波等の被災時の燃料としても期待出来る。Utilize hydrogen or methane gas as energy for automobile society or industry.
However, if all the generated hydrogen and methane gas are consumed as energy, it will deviate significantly from the original purpose of improving the global environment.
If the remaining hydrogen or methane gas is buried underground and sealed, the effect of improving the global environment is great.
It can also be expected as fuel for disasters such as tsunamis.
海洋酸性化を防止することで海の環境保全が出来、将来の魚介類資源の安定に寄与出来る。By preventing ocean acidification, it is possible to preserve the sea environment and contribute to the stability of future seafood resources.
1.紫外線
2.重い
3.軽い
4.不安定
5.オゾンより軽い
6.燃焼等で消費
7.通電
8.塩素発生
9.水素発生
10.海水
11.収集ボックス
12.無風状態の空気
13.残留水素及びメタンガス、酸素発生
14.二酸化炭素流入
15.その他の気体
16.化合管
17.水酸化ナトリウム溶液
18.軽い水素を取り出す。
19.−極の電解槽
20.酸素増加
21.塩+水
22.オゾン放出
23.減圧状態
24.水抜きバルブ
25.干満時の海水
26.満潮時の海水
27.水位差で水抜き
28.干潮時に、酸素と海水を攪拌して放水
29.酸素混入バルブ
30.隔離壁
31.生成物発生
32.不安定
33.放出
34.空気取入れ口
35.バルブ
36.空気流入
37.+極の電解槽
38.紫外線、超音波、振動等の補助装置
39.電解槽
40.海水減圧槽1. 1.
19. -An
Claims (1)
更に生成過程で生じる冷却熱が大気熱を吸収する事で地球温暖化防止に繋がり、その目的の為に水素と二酸化炭素からメタンガスを反応させる為[図6]の装置を用いて行う方法。Seawater is electrolyzed to generate chlorine and hydrogen, and the hydrogen and increasing carbon dioxide are combined to generate methane gas.
Further, the cooling heat generated in the generation process absorbs atmospheric heat, thereby preventing global warming. For this purpose, the method of using methane gas from hydrogen and carbon dioxide to react with the apparatus [FIG. 6].
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