US PATENT & TRADEMARK OFFICE

Sys­tem and Method of Con­trol of the Ter­restri­al Cli­ma­te and its Pro­tec­tion against Warm­ing and Cli­ma­tic Cata­stro­phes Cau­sed by Warm­ing such as Hurricanes

Abs­tract

This sys­tem of the con­trol and pro­tec­tion of the ter­restri­al cli­ma­te reli­es main­ly on civi­li­an air­lines bur­ning (pre­fer­a­b­ly pri­ce-sub­si­di­zed) sun-shad­ing (sun-blo­ckin­g/­sun-reflec­ti­ve) fuels in the high levels of the atmo­sphe­re in order to redu­ce the inten­si­ty of the solar radia­ti­on rea­ching the Earth’s sur­face. The use of sun-blo­cking air­line fuels for the pro­tec­tion of the Earth from solar radia­ti­on par­al­lels the use of sun-blo­cking skin-creams for the pro­tec­tion of the indi­vi­du­al. The inven­ti­on par­al­lels the coo­ling effect on the Earth’s cli­ma­te cau­sed by major vol­ca­nic erup­ti­ons, col­li­si­ons of the Earth with aste­ro­ids, or the coo­ling effect one could expect after a major nuclear war. This inven­ti­on pro­po­ses the crea­ti­on of a con­trol­led mini »nuclear win­ter«, in other words of a coo­ling cau­sed by the increased refrac­tion of the atmo­sphe­re or by the increased shad­ing of the ter­restri­al sur­face by par­ti­cu­la­tes in the high levels of the atmosphere

    Mark Hucko

    Budatinska 23

    Bratislava

    850105

    SK

Claims

1. Method of con­trol of the ter­restri­al cli­ma­te by using a sys­tem of for­mu­la­ti­on and use of sun-shad­ing air­craft fuels, for­mu­la­ti­on and spray-dus­ting of sun-shad­ing aeri­al sprays from air­craft, the regu­la­ted dis­tri­bu­ti­on of sun-shad­ing dust, spray and exhaust fumes in the upper rea­ches of die atmo­sphe­re main­ly by com­mer­cial or civi­li­an air­craft; the use of air­craft and air­craft fuels to redu­ce the amount of solar radia­ti­on rea­ching the Earth’s sur­face, to stop or slow down the warm­ing of the Earth’s cli­ma­te, to cool the Earth’s cli­ma­te and to neu­tra­li­ze the effect of green­house gas­ses and other fac­tor upon the warm­ing of the Earth’s cli­ma­te; the goal-ori­en­ted for­mu­la­ti­on of air­craft fuels in such a way that their bur­ning will pro­du­ce sun-shad­in­g/­sun-reflec­ting exhaust; apart from the refor­mu­la­ti­on of air­craft fuels using stan­dard ingre­di­ents in new pro­por­ti­ons, the addi­ti­on of non-stan­dard ingre­di­ents into air­craft fuels, in order to increase the sun-shad­in­g/­sun-reflec­ting of their exhaust; the use of civi­li­an, com­mer­cial, pri­va­te and mili­ta­ry air­craft for the aeri­als spray-dus­ting of other com­pounds with sun-shad­ing qua­li­ties; the instal­la­ti­on of spray-dus­ting equip­ment on com­mer­cial, civi­li­an, pri­va­te and mili­ta­ry air­craft in order to use them for atmo­sphe­ric spray-dus­ting of sun-shad­in­g/­sun-reflec­ting com­pounds the man­da­to­ry use of sun-shad­ing air­craft fuels and atmo­sphe­ric sprays for just about all air­craft; the regu­la­ted use of various types of sun-shad­in­g/­sun-reflec­ting air­craft fuels and atmo­sphe­ric sprays in such a way that the ones with stron­ger sun-shad­ing pro­per­ties would be used in are­as of low air­plane traf­fic and tho­se with lower sun-shad­ing pro­per­ties in the are­as of high air­plane traf­fic; quan­ti­fi­ca­ti­on and assig­ning a sun-fac­tor num­ber to each air­plane fuel and sun-shad­ing atmo­sphe­ric spray depen­ding upon their abili­ties to sha­de sun­light, in a par­al­lel way to skin-creams being assi­gned a sun-fac­tor num­ber; vie­w­ing and using sun-shad­ing air­craft fuels and sun-shad­ing atmo­sphe­ric sprays as a »sun-cream« or »sun-block« for the pla­net Earth, par­al­lel to sun-shad­in­g/­sun-blo­cking skin-creams, the use of air­craft and of sun-shad­ing air­craft fuels and atmo­sphe­ric sprays for the reduc­tion of die amount of sun­light rea­ching the Earth’s surface–not only to stop warm­ing of die Earth’s cli­ma­te but also to mode­ra­te and regu­la­te tro­pi­cal storms and to dam­pen the des­truc­ti­ve force of tro­pi­cal storms such as hur­ri­ca­nes, cyclo­nes or typho­ons; the con­trol­led and regu­la­ted bur­ning of air­craft fuels who­se exhaust fumes increase the refrac­tion of the atmo­sphe­re or the sun-shad­ing of the ter­restri­al sur­face and lead to a con­trol­led mini »nuclear win­ter«, in other words to the regu­la­ted coo­ling of the ter­restri­al sur­face; the regu­la­ted sche­du­ling of the use of various types of sun-shad­ing or non-sun-shad­ing air­craft fuels on dif­fe­rent rou­tes, in dif­fe­rent regi­ons and at dif­fe­rent times, accor­ding to the wea­ther con­di­ti­ons, sea­son and the den­si­ty of air traf­fic in any par­ti­cu­lar area; to equip all high-fly­ing air­craft with two sepa­ra­te fuel-hol­ding are­as, one for non-sun-shad­ing fuels, used during take-offs and landings, and ano­ther for high­ly sun-shad­ing fuels, used for flight in high levels of the atmosphere.

Descrip­ti­on

CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] Appli­ca­ti­on num­ber 60941666, EFS-ID: 1833526, Con­fir­ma­ti­on Num­ber 2585, »Sys­tem and Method of Con­trol of the Ter­restri­al Cli­ma­te and its Pro­tec­tion against Warm­ing and Hurricanes«,

FIELD OF THE INVENTION

[0002] Area of Technology

[0003] This inven­ti­on tou­ch­es upon the fol­lo­wing are­as of sci­ence and tech­no­lo­gy: meteo­ro­lo­gy, envi­ron­men­tal sci­en­ces, pol­lu­ti­on con­trol, che­mis­try, phy­sics, bio­lo­gy, fuel com­po­si­ti­on, cru­de oil refi­ne­ment, air-traf­fic con­trol, air-traf­fic routing.

BACKGROUND OF THE INVENTION

[0004] Theo­re­ti­cal cau­ses of the war­ning of the ter­restri­al climate.

[0005] The most com­mon theo­ry behind the warm­ing of the ter­restri­al cli­ma­te is the increased con­cen­tra­ti­on of anthro­po­ge­nic or green­house gas­ses (main­ly of CO2) in the atmo­sphe­re, due to human acti­vi­ties. Other less known clai­med cau­ses, are the inter­ac­tion of cos­mic and solar radia­ti­on with the atmo­sphe­re or increase in solar radiation.

[0006] Cur­rent Sta­te of the Technology

[0007] Cur­rent efforts to con­trol the cli­ma­te, espe­ci­al­ly to limit the warm­ing of the Earth’s cli­ma­te due to the release of the green­house gas­ses into the atmo­sphe­re have been in the­se areas:

[0008] Method 1. Limi­ting the use of all energy

[0009] Method 2. Limi­ting the fuel con­sump­ti­on of all hydro­car­bon-fuel bur­ning vehicles.

[0010] Method 3. Swit­ching from the bur­ning of fos­sil fuels to other sources of ener­gy: nuclear, wind, water, etc.

[0011] Method 4. Pro­mo­ting the use of rene­wa­ble sources of ener­gy, such as bio-fuels, (even though this does not appear to help sin­ce the bur­ning of bio-fuels also pro­du­ces green­house gasses.)

[0012] Method 5. The pum­ping of excess green­house gas­ses into under­ground storage

[0013] Method 6. Che­mi­cal bin­ding, pul­veri­zing and con­ver­si­on of green­house gas­ses into other compounds

[0014] The History

[0015] In the bil­li­ons of years of Earth’s histo­ry with pas­sing eons the cli­ma­te has also chan­ged. The main con­tri­bu­ting fac­tors to war­ning or coo­ling of the Earth’s cli­ma­te have been the pre­sence of green­house gas­ses, the inten­si­ty of solar radia­ti­on, vol­ca­nic acti­vi­ty, aste­ro­id col­li­si­ons and the ext­ent of forests and other CO2-bin­ding vegetation.

[0016] Aste­ro­id col­li­si­ons have had gene­ral­ly a coo­ling effect on the Earth’s cli­ma­te due to the release of lar­ge amount of par­tic­les (par­ti­cu­la­tes) into the hig­her levels of the atmo­sphe­re. The­re the par­tic­les have pre­ven­ted a signi­fi­cant amount of suns­hi­ne from rea­ching the Earth’s sur­face and it is suspec­ted that they cau­sed a rapid coo­ling of the cli­ma­te which could have con­tri­bu­ted to mass extinc­tions. Such rapid coo­ling of the cli­ma­te due to the high amount of dust in the hig­her lay­ers of the atmo­sphe­re is some­ti­mes refer­red to as »nuclear win­ter« sin­ce it has been pro­jec­ted that a nuclear war would also release a lar­ge amount of par­ti­cu­la­tes and cau­se rapid coo­ling of the Earth’s atmosphere.

[0017] Vol­ca­nic acti­vi­ty has a dual effect on the cli­ma­te. The initi­al vol­ca­nic explo­si­on ejects lar­ge amounts of par­ti­cu­la­tes (dust) into the atmo­sphe­re and thus has a coo­ling effect, as has been obser­ved after seve­ral lar­ge vol­ca­nic explo­si­ons. Howe­ver along with dust, vol­ca­nic explo­si­ons also release lar­ge amounts of CO2, which has a warm­ing effect. So the initi­al coo­ling effect of the vol­ca­nic explo­si­on is fol­lo­wed by the war­ning effect due to the released CO2 into the atmosphere.

[0018] Amount of land vege­ta­ti­on, such as forests, has also a signi­fi­cant effect upon the Earth’s cli­ma­te. It is suspec­ted that the dra­stic reduc­tion of the popu­la­ti­on in Euro­pe after the black pla­gue epi­de­mic has resul­ted in a lower wood con­sump­ti­on and refo­re­sta­ti­on of the Euro­pean con­ti­nent. This refo­re­sta­ti­on has decreased the levels of CO2 in the atmo­sphe­re and could have trig­ge­red the sud­den coo­ling of the Euro­pean con­ti­nent in the deca­des after the black plague.

[0019] In the ear­ly years of the third mill­en­ni­um the Earth’s cli­ma­te is under influence from seve­ral fac­tors which lead to the rapid warm­ing of the cli­ma­te and to the mel­ting of gla­ciers and polar ice caps. To this dra­stic cli­ma­te chan­ge con­tri­bu­te main­ly: mas­si­ve fos­sil fuel bur­ning and deforestation.

DESCRIPTION OF RELATED ART

[0020] Not applicable.

SUMMARY OF THE INVENTION

[0021] This sys­tem of the con­trol of the ter­restri­al cli­ma­te and for the pro­tec­tion of the ter­restri­al cli­ma­te reli­es main­ly on civi­li­an air­lines bur­ning pre­fer­a­b­ly pri­ce-sub­si­di­zed sun-shad­ing fuel in the high levels of the atmo­sphe­re in order to redu­ce the inten­si­ty of the solar radia­ti­on rea­ching the Earth’s sur­face. This regu­la­ted bur­ning of fuels having sun-shad­ing, sun-reflec­ting exhaust crea­tes a con­trol­led mini »nuclear win­ter«, or mini »ice-age« and cools the ter­restri­al cli­ma­te to the desi­red level. This inven­ti­on has a quick and prac­ti­cal­ly imme­dia­te effect upon the Earth’s cli­ma­te and gives us more time to put into effect other mea­su­res to con­trol the pro­duc­tion of anthro­po­ge­nic gas­ses and to redu­ce the CO2 levels in the atmo­sphe­re. In com­pa­ri­son to other pro­po­sals, this inven­ti­on can be put into effect within months and show prac­ti­cal­ly imme­dia­te result–with mini­mal cost. The dif­fe­rence in cost bet­ween die bur­ning of regu­lar or sun-shad­ing fuels is mini­mal, and thus the main advan­ta­ge of this method is that it cos­ts prac­ti­cal­ly not­hing. The mini­mal increase in cos­ts to the air­line indus­try could be easi­ly com­pen­sa­ted with minor sub­si­dies. All the other known pro­po­sals for the con­trol of the ter­restri­al cli­ma­te rely on mas­si­ve sub­si­dies which could bank­rupt many eco­no­mies and lead to a reces­si­on. This inven­ti­on gives us a chan­ce to save the ter­restri­al cli­ma­te and give us time to deve­lop other sources of ener­gy, such as fusi­on. In fact this inven­ti­on is the only via­ble alter­na­ti­ve bet­ween sus­tained growth and envi­ron­men­tal con­trol, or the mel­ting of gla­ciers and polar ice fields com­bi­ned with a world reces­si­on and envi­ron­men­tal cata­stro­phe. This inven­ti­on tou­ch­es upon the fol­lo­wing are­as of sci­ence and rese­arch: meteo­ro­lo­gy, envi­ron­men­tal sci­en­ces, pol­lu­ti­on con­trol, che­mis­try, phy­sics, bio­lo­gy, fuel com­po­si­ti­on, cru­de oil refi­ne­ment, air-traf­fic con­trol, air-traf­fic routing.

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] Not applicable

DETAILED DESCRIPTION OF THE INVENTION

[0023] The Fun­da­men­tals of this Invention

[0024] The main idea behind this inven­ti­on is the com­pul­so­ry and regu­la­ted use of such types of air­craft fuels who­se emis­si­ons have an increased abili­ty to sha­de or reflect solar radia­ti­on and to pre­vent a part of the solar radia­ti­on from rea­ching and warm­ing of the Earth’s sur­face. Sin­ce by using sun-shad­ing air-craft fuels air­lines would be sol­ving the war­ning of the Earth’s cli­ma­te cau­sed not only by air-traf­fic but by all indus­tries, such sun-shad­ing air­craft fuels should be pri­ce-sub­si­di­zed. Apart from the use of sun-shad­ing air­craft fuels as an alter­na­ti­ve this inven­ti­on also pro­po­ses direct disper­sal of other non-fuel sun-shad­ing com­pounds in the high rea­ches of the atmo­sphe­re by high fly­ing air­craft using simi­lar equip­ment as is being used by agri­cul­tu­ral air­craft. Regu­la­to­ry organs would pay the full pri­ce of sun-shad­ing com­pounds, sub­s­idy the cost of instal­la­ti­on of spray­ing equip­ment as well as the cost of all air-flights during which such aeri­al disper­sal takes place. This rela­tively cos­t­ly disper­sal of sun-shad­ing aero­sols in the atmo­sphe­re should be taken only in the extre­me case. The pre­fera­ble method is the use of sun-shad­ing fuels, which has only mini­mal costs.

[0025] All fos­sil fuel vehic­les through their release of anthro­po­ge­nic gas­ses (such as CO2) into the atmo­sphe­re con­tri­bu­te to the war­ning of the Earth’s cli­ma­te. High-fly­ing jets eject into the hig­her lay­ers of the atmo­sphe­re not only CO2 but also other pol­lut­ants and par­ti­cu­la­tes. It has been obser­ved that air­plane exhaust, due to its shad­ing effect, some­what lowers the inten­si­ty of the solar radia­ti­on rea­ching the sur­face and coun­ter­ba­lan­ces the warm­ing effects of the CO2 pol­lu­ti­on and if pro­per­ly used and for­mu­la­ted could be a powerful tool against the warm­ing of the Earth’s cli­ma­te. So air­plane traf­fic, ins­tead of being a big pro­blem due to its pro­duc­tion of CO2 and of other pol­lut­ants, could beco­me the solu­ti­on to the war­ning of the Earth’s climate.

[0026] The evi­dence for the sun-shad­ing (coo­ling) effect of the air­plane exhaust is wide­ly available in the lite­ra­tu­re. The most obvious effects of the sun-shad­ing power of the air­plane exhaust have been obser­ved befo­re, during and after sud­den mas­si­ve groun­ding of air­planes due to labor stop­pa­ges, strikes or other reasons. At tho­se times it was pos­si­ble to mea­su­re the dif­fe­rence bet­ween the pre­sence and absence of the sun-shad­ing effect of the air­plane exhaust. This dif­fe­rence was obvious even with the usa­ge of nor­mal non-shad­ing air­plane fuels and it can be expec­ted that this dif­fe­rence would be mas­si­ve with the com­pul­so­ry usa­ge of such hi-fac­tor sun-shad­ing air­plane fuels. For exam­p­le while the United Sta­tes govern­ment stop­ped the air­plane traf­fic in die U.S. for seve­ral days after the ter­ro­rist attack on the New York World Trade Cen­ter, it was accom­pa­nied by a mea­sura­ble increase in tem­pe­ra­tures and solar radia­ti­on in the con­ti­nen­tal United Sta­tes, due to the absence of die air­plane exhaust in the upper levels of the atmo­sphe­re. While even the use of nor­mal air­plane fuels has shown its­elf to have dra­stic and powerful influence upon the tem­pe­ra­tures on tie Earth’s sur­face, the effect of the regu­la­ted use of sun-shad­in­g/­sun-reflec­ting air­plane fuels (having sun-shad­in­g/­sun-reflec­ting exhaust fumes) would be seve­ral times higher.

[0027] While in most parts of the Earth the­re has been a signi­fi­cant warm­ing trend, the cen­tral are­as of the United Sta­tes during the win­ter of 2006–2007 have obser­ved a coo­ling trend. This con­firms and sup­ports this inven­ti­on, sin­ce the coo­ling trend in the cen­tral are­as of the United Sta­tes, which is in direct con­trast to the rest of the pla­net was most likely cau­sed by the pre­sence of high levels of air­plane exhaust in the upper lay­ers of the atmo­sphe­re. The upper lay­ers of the atmo­sphe­re abo­ve the cen­tral are­as of the United Sta­tes have some of the lar­gest con­cen­tra­ti­ons of air­plane exhaust on Earth.

[0028] The recent trend in the for­mu­la­ti­on of air­plane fuels has been in the direc­tion of clean bur­ning fuels, while it is belie­ved that it would be the best for the envi­ron­ment. Howe­ver the nega­ti­ve effects of the pol­lut­ants and of CO2 in the air­plane exhaust can be more than off­set by the posi­ti­ve sun-shad­ing effects of pro­per­ly for­mu­la­ted air­plane exhaust. This inven­ti­on pro­po­ses the pro­duc­tion and plan­ned use of sun-shad­ing air­plane fuels and the disper­sal of other sun-shad­ing com­pon­ents in the upper lay­ers of the atmo­sphe­re by high-fly­ing civi­li­an and mili­ta­ry aircraft.

[0029] The Prac­ti­cal Application

[0030] In pra­xis this method looks like this: Sun-shad­ing pro­per­ties of all air­plane fuels would be mea­su­red and all air­plane fuels would be clas­si­fied upon their sun-shad­ing effects, each having its own sun-shad­ing fac­tor, in the same way as sun-shad­ing creams have today. An inter­na­tio­nal inter-govern­men­tal agen­cy would regu­la­te the use of various types of air­plane fuels on various rou­tes. On rou­tes with extre­me­ly high air­plane traf­fic, such as the cen­tral United Sta­tes, the air­planes would use fuels with a low sun-shad­ing fac­tor. On other rou­tes, such as die coas­tal are­as of the United Sta­tes, the oce­ans, and are­as with low den­si­ty of air-traf­fic would be man­da­ted the use of air­plane fuels with a high sun-shad­ing fac­tor. This kind of regu­la­ted and man­da­ted use of air­plane fuels with high/medium/low sun-shad­ing (or sun-reflec­ting) fac­tors would achie­ve within a few months (!) a signi­fi­cant nor­ma­liza­ti­on of the Earth’s cli­ma­te, stop and even rever­se the warm­ing of the ter­restri­al cli­ma­te. One could even crea­te a mini »nuclear win­ter« or a mini ice-age.

[0031] Other Uses

[0032] Sun-shad­ing air­craft fuels and aeri­al sprays could be also used for the con­trol of tro­pi­cal storms, hur­ri­ca­nes typho­ons, cyclo­nes and other wea­ther cata­stro­phes. By using sun-shad­ing air­craft fuels and disper­sing sun-shad­ing sprays in the are­as of and around tro­pi­cal storms (or poten­ti­al storms) as well as in the are­as of their path we could redu­ce their inten­si­ty and their des­truc­ti­ve force. Just a simp­le reduc­tion of storm inten­si­ty would dra­sti­cal­ly redu­ce storm-rela­ted dama­ge and pay for all expenses.

[0033] Clas­si­fi­ca­ti­on of Sun-Shad­in­g/­Sun-Reflec­ting Air­plane Fuels

[0034] The­re are many pos­si­ble com­po­si­ti­ons of air­plane fuels. Air­plane fuels vary in che­mi­cal com­po­si­ti­on and in the com­po­si­ti­on and qua­li­ty of the resul­ting exhaust. Apart from stan­dard air­plane fuels with sun-shad­ing pro­per­ties, other air­plane fuels could be deve­lo­ped which con­tain other non-stan­dard addi­ti­ves which increase the sun-shad­ing pro­per­ties (fac­tor) of the air­plane fuel exhaust. Should it be neces­sa­ry, in addi­ti­on to the use of sun-shad­ing air­plane fuels, civi­li­an and mili­ta­ry air­craft could be man­da­ted to disper­se direct­ly other sun-shad­in­g/­sun-reflec­ting com­pounds in the upper rea­ches of the atmosphere.

[0035] Examp­les of Sun-Shad­in­g/­Sun-Reflec­ting Air­plane Fuels

[0036] Unli­ke the cur­rent trend which aims to redu­ce the par­ti­cu­la­te emis­si­ons from the bur­ning of hydro­car­bon fuels by using car­bo­na­te and other addi­ti­ves, air­plane fuels with a high sun-shad­ing fac­tor would be tho­se which con­tain a high level of par­ti­cu­la­te emis­si­ons, sul­fur and simi­lar sun-reflec­tin­g/­sun-shad­ing com­pon­ents. Other non-stan­dard addi­ti­ves could be added to the air­plane fuels to increase their sun-shad­ing (sun-dim­ming) pro­per­ties even fur­ther. Atten­ti­on has to be paid to the inert­ness of the air­plane exhaust upon the ozone lay­er. Fuels and addi­ti­ves which have a des­truc­ti­ve effect upon the ozone lay­er should not be used.

[0037] Examp­les of Prac­ti­cal Use of this Invention

[0038] Exam­p­le 1: All exis­ting air­craft fuels, most important­ly tur­bi­ne fuels, would be tes­ted and clas­si­fied accor­ding to their abili­ties to shade/block solar radia­ti­on. An inter­na­tio­nal inter-govern­men­tal orga­niza­ti­on would regu­la­te the use of dif­fe­rent types of air­craft fuels on dif­fe­rent air­line rou­tes. Ide­al­ly, in order to redu­ce the nega­ti­ve effects of this method upon tie envi­ron­ment to the mini­mum, air­planes would have two types of fuels: stan­dard fuel for take-off and landing, and sun-shad­ing fuel for high-alti­tu­de flights.

[0039] Exam­p­le 2: In are­as of very high den­si­ty of air­plane traf­fic, such as the cen­tral are­as of the United Sta­tes, air­craft would use fuels with rela­tively low sun-shad­ing fac­tor. This would pre­vent such unu­sual­ly cold win­ters as was the win­ter of 2006–2007in that area.

[0040] Exam­p­le 3: In coas­tal are­as which have die influx of fresh air from die oce­ans, on the oce­ans and in other are­as with rela­tively low den­si­ty of air­plane traf­fic, would be man­da­ted the use of air­craft fuels with a high sun-fac­tor, i.e. with a high abili­ty to block/shade/reflect/reduce the inten­si­ty of the solar radia­ti­on (solar ener­gy) rea­ching the Earth’s sur­face. This type of regu­la­ted use of air­craft fuels or even atmo­sphe­ric sprays with low/medium/high abili­ty to block /shade /reflect the solar radia­ti­on could, in a rela­tively short time of seve­ral months, accom­plish the nor­ma­liza­ti­on of die ter­restri­al cli­ma­tes and stop or even rever­se the warm­ing of the Earth.

[0041] Exam­p­le 4: To make the use of sun-shad­ing air­craft fuels and sun-shad­ing atmo­sphe­ric sprays finan­ci­al­ly fea­si­ble for com­mer­cial air­lines, regu­la­to­ry organs would deter­mi­ne the ext­ent to which such sun-shad­ing air­craft fuels would be sub­si­di­zed or to which ext­ent they would sub­si­di­ze tho­se flights which would not only use sun-shad­ing air­craft fuels but which would, in addi­ti­on to that, also spray-dust sun-shad­ing atmo­sphe­ric sprays. It is neces­sa­ry that such fuels and flights be sub­si­di­zed sin­ce they would sol­ve not only the cli­ma­tic pro­blems cau­sed by the air-trans­port indus­try but by all industries.

[0042] Exam­p­le 5: Sun-shad­ing of the ter­restri­al sur­face could be used also to dampen/weaken tro­pi­cal storms (cyclo­nes, hur­ri­ca­nes, typho­ons..) and other wea­ther-rela­ted cata­stro­phes. Tro­pi­cal storms gain their ener­gy from sun and any, even mode­ra­te reduc­tion of the solar radia­ti­on (solar ener­gy) in the area of the storm and in its path through the use of high-fac­tor sun-shad­ing air­craft fuels and atmo­sphe­ric sprays could signi­fi­cant­ly dam­pen its strength.

[0043] Exam­p­le 5: This method of con­trol of the ter­restri­al cli­ma­te could be com­pared to a con­trol­led and indu­ced mini nuclear win­ter, or a mini ice-age, i.e. the coo­ling effects cau­sed by the release of high amounts of sun-shad­ing /sun-blo­ckin­g/­sun-reflec­ting par­ti­cu­la­tes into the hig­her lay­ers of the atmo­sphe­re as could be cau­sed also by a nuclear war, col­li­si­on of Earth with an aste­ro­id or a major vol­ca­nic erup­ti­on. Unli­ke a vol­ca­no, aste­ro­id or a nuclear war, the gra­du­al and con­trol­led release of par­ti­cu­la­tes by high-fly­ing air­craft can be regu­la­ted and con­trol­led. While air­craft have to use one or ano­ther type of fuel, choo­sing fuels which pro­du­ce sun-shad­in­g/­sun-reflec­ting exhaust does not cost signi­fi­cant­ly more than using other air­craft fuels. Thus the most revo­lu­tio­na­ry con­tri­bu­ti­on of this inven­ti­on, unli­ke other pro­po­sals cos­ting hundreds of bil­li­ons of Euro/Dollars, is the low cost of con­trol of the ter­restri­al cli­ma­te. This low-cost yet very quick and effec­ti­ve method of con­trol of the ter­restri­al warm­ing can­not be com­pared to other mas­si­ve­ly expen­si­ve methods which would take deca­des to achie­ve any signi­fi­cant chan­ges in the cli­ma­te, bank­rupt eco­no­mies and cau­se wide-spread recessions.

[0044] Indus­tri­al Use

[0045] This method of con­trol of ter­restri­al cli­ma­te and the pro­tec­tion of the ter­restri­al cli­ma­te from warm­ing is appli­ca­ble in the enti­re world, in all count­ries of the world, on all air­ports, for all air­planes for which exist or for which will be deve­lo­ped sun-shad­ing air­craft fuels. Con­tra­ry to other pro­po­sed methods of the con­trol of ter­restri­al cli­ma­te, this method of regu­la­ti­on cf the ter­restri­al cli­ma­te sup­ports all indus­tri­al deve­lo­p­ment and growth, and mas­si­ve­ly sup­ports the air-trans­por­ta­ti­on and air­plane manu­fac­tu­ring indus­tries while sol­ving one of the most acu­te pro­blems of our times. While most sci­en­tists suspect the increased pre­sence of the green­house gas­ses to be the main cau­se of the warm­ing of the Earth’s atmo­sphe­re, the­re are also other, even dia­me­tri­cal­ly dif­fe­rent opi­ni­ons on this mat­ter. This method works inde­pen­dent of the real cau­ses of the warm­ing of the Earth’s cli­ma­te. By redu­cing the dama­ge cau­sed by storms and other wea­ther-rela­ted cata­stro­phes, it would be a signi­fi­cant bene­fit for the insu­rance industry.

[0046] Pos­si­ble Side-Effects

[0047] This inven­ti­on pro­po­ses the use of sun-shad­ing air­craft fuels and sprays which would be bur­ned, respec­tively spray­ed, in high levels of the atmo­sphe­re to redu­ce the amount of solar radia­ti­on and heat rea­ching the Earth’s sur­face. Sin­ce die bur­ning of air­craft fuels cau­ses only a small frac­tion of all the CO2 release due to the bur­ning of fos­sil fuels and air-pol­lu­ti­on, con­cerns that the usa­ge of sun-shad­ing air­craft fuels would increase the pol­lu­ti­on are not war­ran­ted. Com­pared to the huge con­tri­bu­ti­on to the con­trol of die Earth’s cli­ma­te, the pol­lu­ti­on cau­sed by sun-shad­ing air­craft fuels and atmo­sphe­ric sprays is insi­gni­fi­cant. Of cour­se by the for­mu­la­ti­on of sun-shad­ing air­craft fuels we should only attempt to increase die con­tent of inert sun-shad­ing com­pon­ents in the emis­si­ons while kee­ping any ozone threa­tening pol­lut­ants to a mini­mum. Fur­ther­mo­re, in order to redu­ce the nega­ti­ve effects of this method upon the envi­ron­ment to the mini­mum, air­planes would have two types of fuels: stan­dard fuel for take-off and landing, and sun-shad­ing fuel for high-alti­tu­de flights.