NEW COMBUSTION PROCESS Technical field/Field of the Invention

With this invention shall be solved climate crisis. The greenhouse effect is stopped for ever, This invention shall be used by all kinds of combustion contrivance forms which can burn up all kinds of pure fuels, including synthetic, in gas, fluid, solid form. This invention shall apply to a total combustion under complete control of the combustion without any pollution, i.e. the outlet shall be H ₂ O, CO ₂ and N ₂ that are recyclable. The invention refers to how this (the fuels) shall be burned up with an INJECTOR with high compressed air and the air sucks in fuel which becomes homogeneously mixed with the air to give a total combustion. Another field where this invention shall be used is for all different types of engines that are manufactured on world. The new engines shall take use of an INJECTOR with high compressed air that sucks in gas form or fuel fluid, ethanol, methanol, petrol, jet-fuel, diesel fuel, etc in state of (Table 1), that shall be ejected into the engine cylinder for complete combustion and the outlet shall be H ₂ O, CO ₂ and N ₂ which can be colected with a outlet handling, please have a look at Figure 5. From the outlets handling H ₂ Cθ ₃ + N, these are obtained from new combustion process you can use a recycle labyrinth for irrigation with H ₂ COa ⁺ N ₂ these are drinkable and naturel manure. The recycle labyrinth will be used within agriculture for irrigation of plants with H ₂ CO ₃ + N ₂ which are recycled according to the new combustion process.Reactor seen (Fig 9, 10 and 11); Reactor seen (Figure 9) will be used to obtain vapors for turbine, Reactor seen (Figure 10) will be used for thermal power station for warmth water and reactor seen (Fig 11) it is used for warm up private houses, these are without outlet exhause bicome work in closed circuit.. These Reactors shall use an injector seen (Fig 8) at 5 to 250 atm or more which is constructing for complete combustion.

The technical point of view/Background of the Invention

All kinds of fuels have until today been burned up without control, incomplete combustion, that have led to the uncontrolled pollution of the atmosphere and that have been put in a cancer. All the engines of today, which uses different types of fuel under diverse forms, burns up the fuel uncontrolled with tons of outlets of contamination in the atmosphere. The combustion is not controlled, therefore the outlets of contamination is enormous. Since the engines have been invented there has that is to say never been a controlled combustion.This can be referred to the Thermochemistry principle that shows that the engines are regulated for φ > 1 and then the outlet becomes among other things CO. All of the combustion facilities and old engines are in need for scrap and new facilities and engines need to be manufactured. In the current time all the engines that rolls in Sweden lets out more than (18,9 millions of metric ton OfCO ₂ ) but with the new combustion principle the outlet shall halve and with the outlet handling and recycling labyrint the outlet exhause shall be zero. It will be zero exhaust of pollution if you use H ₂ CO ₃ + N ₂ that are obtained from the new combustion process. Every H ₂ CO ₃ + N ₂ that is obtain from the new combustion process shall be used as a fertilizer or nourishment to all sorts of plants with leaves and roots that shall take up N ₂ and the leaves will liberate O ₂ from CO ₂ . These reactors seen (Fig 9, 10 and 11) will work for obtaining warmth water and vapors in a closed circuit without polluting because have not outlet exhaust. Technical problem to be solved/The problem to be solved With this invention the outlets of contamination in the atmosphere will be eliminated for good and give rice to a new world without any contaminations. The invention will result in that the engines'

efficiency will improve, the consumption of the fuel will halve, and the cost for the heating will be 50 % less.

With the labyrinth for irrigation with H ₂ Cθ ₃ + N ₂ obtained from the new combustion process, the H ₂ CO ₃ + N ₂ will be further transformed to fertilize plants that leave oxygen. You can use bacteria that also liberate O ₂ from CO ₂ . Reactorseen (Fig 9, 10 and 11) which work in closed circuit are without greenhouse exhaust. Thus this combustion process works inside the reactor. Figures register

Figure in Fig I ₃ displays cylinder geometry with piston.

Figure in Fig 2, displays an air compressor connected with an injector.

Figure in Fig 3, displays an injector for mixture of air, fuel and coal.

Figure in Fig 4, displays the injector nozzle. Figure in Fig 5, displays of the outlets handling for H ₂ O ₃ and N ₂ .

Figure in Fig 6, displays the recycle labyrinth for irrigation with

H2CO ₃ + N ₂ for plants with leaves.

Figure in Fig 7, displays a pipe with holes made by PVC (a kind of plastic) for recycle labyrinth. Figure in Fig 8, displays an injector model AF.

Figure in Fig 9, displays a reactor that will produce water or vapor for a turbine.

Figure in Fig 10, displays a reactor that will produce the warmth water for a thermal power station. Figure in Fig 1 1 , displays a reactor that will produce the warmth water for private houses.

DETAILED ACCOUNT of INVENTION

1) NEW COMBUSTION PROSSES With this invention shall be solved climate crisis The greenhouse effect is stopped for ever, New combustion process is for complete combustion and scientific can be achieved only by air pressure from (S to 200 or more) atm and give a complete combustion for all kinds of the existing purified fuels seen (Table 1). This high compressed air will suck in all kinds of the existing purified fuels from (Table 1) until the mixture between the air and fuel will become saturated and perfect homgeneous on the basis air pressure, these results in a complete combustion. Without air pressure is impossible to obtain a complete combustion of a combustible because every molecule of combustible is needed for a larger number of molecules of air at the same time. This new combustion process is accomplished with different injectors seen (Fig 2, 3, and 8) for complete combustion, which give the following outlets: H ₂ O, CO ₂ and N ₂ (H ₂ CO ₃ + N ₂ ), it is drinkable, that can undergo outlet handling and recycle labyrinth. This combustion process gives a complete combustion, since CO is not formed thanks to the fact that φ = 1 or less, see (Fig 12). The New combustion process respects the fundamental THERMOCHEMISTRY ¹ principle, that is the Combustion Efficiency, ηc = 100 (%), and the Fuel Equivalence Ratio φ, when φ = 1. The New combustion process withholds strictly the relation between the quantity of air molecules and fuel molecules m _A /niF, see (Table 1) to create a complete combustion there is e.g. a need of 14,5 molecules of air to burn up one 1 molecule of combustible oil it is posible only with air pressure. The flow of fuel, from the fuel pipe, that is sucked in by the high compressed air for φ = 1 is calculated with the formula:

F = (Pl-P2)-πr ⁴ /8Lη. The meaning of the formula is: F = the flow in the fuel pipe, Pl = the pressure of (5 to 250 or more) atm. in the air pipe, P2 = one atmospheric pressure in the warmth installation or engines cilinder, r = the radius for the fuel pipe, L = the length for the fuel pipe, η = the viscosity for the fuel or air. The relation between the air pipe, the fuel pipe or the holes of the nozzle must be holden in the strict proportion from the (Table 1), for a complete combustion. For φ = 1 Stoichiometric can be obtain maximum energi from combustible. With New Combustion Process be realized the fact that noting disapears everything transform to peoples use.In the present time the combustion of the fuel is incomplete for all the vehicles and differing combustion installations. It's incomplete because of the outlet that still gets out, e.g.; HC hydrocarbon, CO carbon monoxide, and NO ₂ nitrogen dioxide which are poisonous. With this NEW COMBUSTION PROCESS the combustion is complete and in the basis of air pressure are under control. The outlets are H ₂ O, CO ₂ and N ₂ , drinkable, and they shall be put under an outlet handling and recycling with labyrinth. This contributes to that differing pollutions will be eliminated and the greenhouse effect will be handled, during a period often years it is possible to overcome the pollutions in the environment in a simple and cheap way. The (Table 1) bellow shows the stoichiometric AF (air, fuel) relation, between the pipe for the compressed air and the pipe for fuel and the holes nozzle for

fuel, when φ = 1 and mA/m _F .(Table 1) m _a = molecule air, mf = molecule fuel, for complete combustion.

Table 1. For complete combustion uder perfect control with purifyed combustible.

Toluen C ₇ H ₈ 13,5/1 13,5 1 1,35 0,1

Hydrogen H ₂ 34,5/1 34,5 1 3,45 0,1

The combustion will be achieved with Injectors (a, b, and c) or more described below they is manufactured for a complete combustion.

a) COMPRESSOR with INJECTOR, see Figure 2, this injector is manufactured for complete combustion, shall be used for all two and also by four-cycled engines, which consumes all kinds of fuels sees (Table 1) for complete combustion. Shall at the same time inject the mixture between the air and the fuel into the engine cylinder (10). Table of signs: for Figure 2. Compresor and Injector; 1 ) Compressor for compressed air that shall be built with a cylinder for each engine cylinder, i.e. one engine with 4 cylinders requires one compressor for compressed air with 4 cylinders. 2) The Injector for each cylinder in the engine. 3) Air pipe it binds the Compressor with the Injector, which volum the V ₀ | _ume + Vj is equal to V _c + V _< j see (Fig 1) and (Fig 4), diameter is chosen from (Table 1) in state of the fue. 4) Solenoid that opens the injectors' needle for injection. 5) The pipe for fuel with a tap fixed on it, diameter is chosen from (Table 1) in state of the fue. 6) The tap on pipe for fuel. 7) Tap = (gas system) with which the engines rev minim is regulated tap for φ < 0, 4 it is open, this opens to the rev maxim φ = 1 with gas pedal, and tap be rotated until φ < 0, 4 with a spring, for engine is the minimum speed in service. 8) The needle for the injector, through this are sucked in fuel by air pressure; this opens and closes both air-pressure and fuel. 9) Mouthpiece, through this the mixture of air-pressure and fuel is injected in to the engine cylinder when needle is opened of solenoid. 10) Cylinder. 11) The spring of the valve for out press of air in the pipe (3) diameter is chosen from (Table 1) that binds the compressor with the injector. 12) Valve for out press of air in the pipe (3) to injector. 13) Piston to the compressor for air-pressure. 14) Cylinder to compressor for air-pressure. 15) Air room. 16) Valve for intake of air.17) Spring for intake valve. 18) Filter for intake of air. 19) Roll. 20) Cam (eccentric) that together with a roll starts the compressor piston. 21) Spring for needle. 22) Safety bolt. 23) Support for spring, 24) Spring, 25) Piston foot, 26) Nozzle seen (Fig 4)

The new engine that will be equipped with Compresor and Injector sees (Figure 2) this injects mixture between air-pressure and fuel at the same time into the engines cylinder under high pressure, mixed with injects air-pressure and fuel/gas depending on the engines propellant, shall respect THERMOCHEMISTRY principles. This signifies to completely respect the state (see Fig "diagram" 12) between: 1 ). Combustion Efficiency η _c = 100 ( _% ) 2). Fuel Equivalence Ratio φ, when φ = 1 φ = (AF ) _s wich / (AF ) _act = 1 optimal stoichiometric for air and fuel, which indicates that maximum energy is liberated from the fuel. For φ = 1 is received a maximum number of revolutions (speed), N _max , from the engine. For φ < 0.4 is received a minimal number of revolutions, N _m j _n , from the engine.Compressed air shall be stored in the pipe (3) that joins the compressor (1) with the injector (2). The pipe (3) diameter is chosen from (Table 1) and area will be calculated out in relation to the cylinders' (V _c + V _d ); (V, + Vj) - PJ = (V _C + V _d ) ^• p _c constant. V ₁ = The pipe/tube (3) hole volume Vi = The volume in the chamber round the injectors needle'seen (Figure 4), pi = Compressed air from the pipe (200 or more) atm. determined for a certain pressure, e.g. 200 atm. p _c = Compressed air in the cylinder that is 1 atm. (atmosphere pressure) V _c = clearance volume see (Figure 1); V _d = displacement volume see (Fig 1) The air mass in the air pipe(3) shall be in state with the density and the air pressure .m _a = p _c ^• η _v ^• P _a ^• (V _d + V _c ), η _v - volumetric efficiency, p _a = the air density .The fuel pipe (5) from the tap (6) to the injector shall be dimensioned for φ = 1 from see (Table 1) through an fixed high compressed air that is in state to the air mass. For gasoline mg/nif is 14,5/1, seen (Table 1) i.e. to burn up 1 gram of gasoline it is needed 14. 5 g of air, it is possible with air pressure. The fuel mass πi _f that will be sucked in of air pressure will be calculate with fomula F seen (page 5/41, row 1).

Table of signs for Figure 4: 1) Air pipe; 2) V _t = the volume of the air pipe. 3) B = Bore, 4) V _d = Displacement volume, 5) V _c = clearance

volume, 6) Vj = injector volume, 7). Fuel intake. 8). Nozzle out side is conical, that is mounted on the injector needle is same with mouthpices con. 9). Mouthpiece is with inside con angle similar with nozzle out angle. B = cylinder diamete from (Figl)

Table of signs for Figure 1: 1) V _c = Clearance volume; 2) Vj = Displacement volume; 3) B = cylinder diameter 4) S = stroke 5) TDC = "the pistons' top dead center "; 6) BDC = "the pistons' bottom dead center"; 7) r = connecting rod length; 8) θ = Crank angel; 9) a = crank offset; 10) s = the pistons' position. When the mixture of air and fiiel is injected in to the cylinder the whole of the cylinders' volume (V _c + V _d ) will be filled in a fast and effective way. At the compressed air (200 or more) atm. there will be a maximum turbulence and then the homogeneous between the air and fuel shall be perfect made of air pressure. And then the mixture vaporizes rapidly and that being so the fuel explosion and combustion shall be rapidly and total. Then there will be created a maximum velocity for the engine's piston. Exhaust of gases will be H ₂ O vapour, CO ₂ gas and N ₂ gas.Under these conditions with φ = 1 for the new engines that will use Compresor and Injector see (Fig 2) there will be obtained:

1). Fuel consumption will be cut down (reduced to) with (30-50) % for

φ = l.see Footnote 1.

2). The Engines' efficiency will be improved with (30-40) %.

3) The fabrication cost will be cut down with (30-40) %, many components from the older engine will disappear.

4) The crank angel (intake angel), θ, shall be newly calculated. See (Figure 1).

5) On these injector there shall be assemble a tap (7) for (chock, for speed) a) for N _m j _n ,mu _m there shall be φ < 0,4 b) for N _max im there shall be φ =1 These engines will not exhaust pollution and they will be the engines of this millennium.

6) Mixture between air and fuel is perfect because of air-pressure.

7) Turbulence is 200 times more as the current engines.

8) Ignition and explosion is 200 times more rapidly but the current engines. 9) Engines efficienty increased.

10) Ignition skall be carried out with spark plugs. Thus there will be created a complete combustion. This is possible by choosing the strict relation between the air pipe (3) and the fuel pipe (5)from (Table 1) in state of how many molecules air is needed to combust one molecule of fuel e.g. Gasoline. To combust one molecule of gasoline there is a need of 14,6 molecules of air. This state between the air pipe (3) and the fuel pipe (5) must thus be 14, 6/1. For this state you can decide that the air pipe (3) has a diameter of φ = 14, 6 mm and the fuel pipe (5) a diameter of φ = 1 mm., this gives a complete combustion. The Compressor (1) shall furnish the Injector (2) with compressed air at 200 atm through the air pipe (3), The piston (13) is for intake of air through the filter (18) and the valve (16) opens at intake and is closed with a spring (17).The Piston (13) is assemble on piston foot (25) on which is assembled the roll (19). Piston (13) is pressed down for contact with the cam (20) of the spring (24), that shore up between support (23) and piston foot (25).When the piston (13) presses up of the cam (20) and roll (19) into the cylinder (14).The piston (13) then presses up the air from the air room (15) through the valve (12). The valve (12) then opens up and after that is it closed with a spring (11). After that the air is pressed up to the pipe (3) and creates an air-pressure of 200 atm. The air pipe (3) connects the Compressor (1) with the Injector (2). When the intake cycle begins for the engine then the solenoid (4) opens the Injector (2) needle (8). The air from the pipe (3) with high

air-pressure of 200 atm flows out through the mouthpiece (9) to the cylinder (10). Thus at the same time the high air-pressure sucks in the fuel from the pipe (5) into the air mass through needle (8) and the nozzle (26) and then the mixture are quick homogeneous and is injected through the mouthpiece (9) into the cylinder (lO).The nozzle (26) is assembled on the needle (8) tip. The nozzle (26) out side is conical similar with mouthpiece (9) inside con angle. The nozzle has four holes with a diameter = 0, 25 mm, and with the interval 90° in circumference. The nozzle (26) will be constructed with more holes if it is necessary. These holes distribute homogeneous the fuel in the air mass. When the compression cycle to engine begins, then the solenoid (4) is closed. The spring (21) presses down the needle (8) on the mouthpieces (9) con, which at the same time closes of the air and the fuel. The spring (21) shore up on the safety bolt (22). The arises high air-pressure, (compressed air) rapidly makes the mixture between the air and the fuel homogeneous. This homogeneous mixture is injected through mouthpiece (9) in cylinder (10) The mixture is 200 times more homogenise than in the present engines. When the high compressed air sucked in the fuel through nozzle (26), and is injected through mouthpiece (9) in into the cylinder (10) a maximum turbulence is created into cylinder (10). This high air-pressure than created a maximum turbulence into cylinder (10), is 200 times more turbulence than in the present engines. When the engine piston comes up is created the compressed- cycle, the explosion-cycle begin. The ignition and explosion is instantaneous and it is 200 times more rapid that in the present engines, the combustion is total with a maximal velocity that gives the engines piston more velocity and more power for the engine.The mixtures volume that is injected in through mouthpieces

(9) into the cylinder (10) must be equal to V _d + V _c see (Fig 1). Where Vd (2) = Displacement volume, V _c (1) = Clearance volume. The flow of the fuel, that is sucked in into the air mass from the fuel pipe (5) through nozzle (26)similar nozzle (8) from (Fig 4) is calculated with formula, F = (P1-P2) • π r ⁴ /8Lη seen (page 5/41 row 1) To secure that φ = 1, the fuel pipe (5) shall be equipped with a tap (6). The tap (6) shall be fixed in a special plant and be lead sealed for φ = 1. This is a double assurance that the combustion is complete and under a total control. The outlet will be H ₂ CO ₃ + N ₂ . On to the buddy of the injector (2) where the fuel pipe (5) is connected there shall be installed a tap (7) shall be in connection with the gas pedal. The tap (7), that is produce the same a tap and adjusts there the engines' minimum rev for φ < 0,4 that is open, and with gas pedal will be opened up to rev maximum φ = 1 , and will be rotated until φ < 0,4 with a spring. On the new engines shall be mounted the compressor (1) on to the same place where the fuel pump is mounted on the present diesel engines. The injector (2) shall be placed on to the cylinder-head instead of the intake valve and θ (8) = Crank angel (8) see (Fig 1) come to be calculate of. The new engines do not need to have intake valves, air filter, carburettor, cam axis for intake valves, springs and second components, the catalytic converter, because the new engines do not let out any outlet as: CO, NO ₂ and HC. The new engines only let out the outlets H ₂ CO ₃ + N ₂ and these outlets will be put under an outlet handling and recycling in labyrinth. Hydrogen can be used as fuel for the new engines and then the outlet will be H ₂ O that shall be put on an outlet handling and recycled in labyrinth. The H ₂ O can be recycled through sale for electric-battery, laboratories and to the pharmacy.The compressor (1) and the injector (2) shall be produced with present techniques' and with minimum costs'. Through this invention the costs' for the producing a new engine will decrease with

30 % between 50%. The consummation of fuel will decrease between 50 % to 70 % for the new engines. The Fuel Equivalence Ratio φ for the old engines increases from φ = 1 to φ = 1, 3 and is for big lorries up to φ = 1 , 7 ¹ that creates more pollutions as: HC, CO and NO∑, because of incomplete combustion.The Compressor (1) and the Injector (2) shall be constructed in highest series whit actual technology and within 10 years all new and old cars shall be equips with they. If so pollution will not come out from the vehicles. b) INJECTOR Sees Figure 3. Is produced for complete combustion. The injctor is produced from three different pipes, two, one of which is for combustible oil and second is for coal, they have diameter equal and is parallel fixed the pipe for combustible oil with the pipe for coal, they is in the center of the air pipe, diameters is chosen fron (Table 1) and diameter for air pipe is = 14,5 +11 ,5 = 26 mm and for combustible oil diameter is = 1 mm ,for coal pipe diameter is = 1 mm.See (Table 1)

Table of signs for Figure 3: 1) The pipe with combustible oil inside, diamiter = 1 mm chosen from (Tablel) and is parallel with the pipe (5) for coal. 2) Tap on the pipe with fuel inside. 3) Pipe for air the compressed air (30 - 100 atm.) diameter chosen from (Table 1) in centre are fixed the combustible oil pipe (1) and the pipe (5) for coal they is in parallel. 4) Tap on the pipe for air. 5) Pipe for coal diameter = lmm chosen from (Table l).is parallel with pipe (1). 6) Tap on the pipe for coal. 7) The section A _a for the pipe with air inside. 8) The section A _f for the pipe with fuel inside. 9) The section A _s for the pipe with coal inside. 10) Injection with air, fuel and coal that forms accordingly to the picture. 11) Flange. 12) Nozzle with inside angle that will be 60°. 13) Outside angle 90° for nozzle. 14) The inside angle 60° for nozzle.The injectors' outflow, where these three materials already have been mixed of air pressure, the nozzle shall have a double conical shape one for speed with inside angle 60°.and other with out angle 90° for spreading so that you can get a better spreading out of

mixture. This principle is applicable on furnaces and all combustion instalations. This Injector see (Fig 3) shall be installed in a hermetically sealed furnace, boiler and all combustion instalations. This kind of injector will mix: 1 ) air-pressure that flows through pipe 2) liquids of fuel that flows through pipe 3) coal that is finely ground and flows through pipe. The intake of fuel and coal shall be regulated with a tap. The air will also be regulated with a tap that will be opened till maximum wide when it's time for combustion. The consumption of fuel will be reduced with more than half. With this model of injector there will be create a controlled for combustion and complete combustion and the exhaust will be H ₂ O, CO ₂ and N ₂ , that will be outlet handling seen (Fig 5), and recycled with a labyrinth seen (Fig 6, 7) The relation between the pipes section in the injector will be: A _f = A ₈ < A ₃ , see (Fig 3) . Where: A ₃ = the pipe area for the compressed air flow will have a diameter = 14.5 + 11,5 = 26mm chosen from (Table 1) . Af= the pipe area for the fuel flow, diameter = lmm. A _s = the pipe area for the coal flow diameter = 1 mm see (Table 1) Example: If I burn the combustible oil and coal; AF stoichiometric is: For the combustion of 1 molecule of combustible oil there is a need of 14, 5 molecule of air.For the combustion of 1 molecule of coal there is a need of 1 1, 5 molecule of air chosen from (Table 1). For a total combustion the boiler/kilnand all combustion instalation must be hermetical sealed and have a injector for complete combustion and obtain H ₂ CO ₃ and N ₂ that will be drinkable and natural manure. This Injector has a pipe (3) with air inside, under an air-pressure on 30 to 100 atm that is shot out in the kiln through the nozzle (12), at the same time that the air-pressure suck in combustible oil from the fuel pipe(l) and the coal pipe (5). Nozzle (12) has an exterior angle (13) on 90° that makes that the mixture between the combustible oil, coal and air takes a conies form (10) to injection.

When the air from the air pipe (3) comes out with high air-pressure through the nozzle (12) with inside angle that will be 60° make at the air-pressur speed rise to injection it simultaneously sucks in combustible oil from the fuel pipe (1) and coal from the coal pipe (5).This high air-pressure makes that the mixture rapidly is homogeneous and this produces a complete combustion of combustibel. The flow of the fuel that is sucked in into the air mass from the fuel pipe (1) and coal sucked in by the air mass from the coal pipe (5), is calculated with the following formula; F = (P1-P2) ^• π r ⁴ /8Lη. Seen (page 1/21, 25 row 5) To have more control over the combustion an the tap (2) shall be assemble on the fuel pipe (1), a tap (6) on the coal pipe (5), and a tap (4) on the air pipe (3), These taps shall be sealed with lead for φ = 1 which gives a complete combustion. The section A ₃ (7) shall be calculated with the help of the air pipe (3) diameter = 26mm from (Table 1) Section A _f (8) shall be calculated with the help of the fuel pipe (1) diameter = lmm.from (Table 1) Section A ₅ (9) shall be calculated with the help of the coal pipe (5) diameter = lmm from (Table 1). This Injector see (Fig 3) shall be assembled on a combustion kiln with the help of a flange (1 1), combustion kilns and combustion installations must be hermetical stuffed in. This Injector from (Fig 3) reduces the consummation of the fuel with more at 50 % and with the help of the outlet handling can the injector put a stop to for ever of pollution, that is coming out from the combustion installations. This Injector is simple to be mass produced and in the course of one or two years it can furnished in all combustion installations, and it can stop the pollution that is coming out from the warming installation for all times with outlet handling which will be mounted on exhaust pipe c)INJECTOR see Figure 8.This Injector is construct for complete combustion and combustible is purifyed, A complete combustion is posible only new combustion presses with air-presure between 5 to 250 atm or more. Injector is manufactured from the two concentric

pipes, dimensions for pipes are chosen from (Table 1) seen above. From (Table 1) is chosed combustible oil (crude oil) which using 14.5 molecules air for a complete combustion of 1 (one) molecule. With this Injector the mixture between air and fuel is occurs quickly and homogeneity is perfectly because the pressure. The mixture between air and fuel into this type of Injector can be realized to perfection and most respect the basic THERMOCHEMISTRY ² principle; the relation between; Combustion Efficiency, η _c = 100 %, and Fuel Equivalence Ratio φ, when φ = 1, see (Fig 12). For φ = 1 the combustion shall be complete and pollution will be equal to zero and outlet will be H ₂ O, CO ₂ and N ₂ that can be gathered from Reactor in reservoir (1 1) belong to outlet handling and recycled with labyrinth see (Fig 6, 7) Table of signs for Figure 8: 1) The fuel pipe will be adopted in state to the fuel model from (Table 1) from new combustion process, 2) Tap on fuel pipe, 3) Solenoid on tap on fuel pipe, 4) The air pipe with pressure on 250 atm or more, diameter will be adopted in state to the fuel model from (Table 1) for complete combustion with new combustion process. 5) Tap on air pipe (4). 6) Solenoid on tap for air pipe(4). 7) Nozzle. 8) The outside angle for nozzle is 90°. 9) Flange. 10) The inside angle 60° for nozzle. 1 1) The outside angle 90° for nozzle it is for spray.Stoichiometric AF the proportion between the pipe (4) for air-presure and the pipe (1) for fuel (combustible oil) shall be 14,5 / 1, chosen from (Table l).The diameter for air pipe (4) is chosen 14,5 mm and the diameter for the fuel pipe (1) is chosen 1 mm for a complete combustion.The high air-pressure to 250 atm or more in the air pipe (4) is compresed out when the solenoid (6) open the tap (5) then the compresed air goes through the nozzle (7) in Reactor or combustion installation, then at same time

¹ See Engineering Fundamentals of the Internal Combustion Engine, 2 edition, Willard W. Pulkrabek, 2004.

air-pressure suck in the fuel from the fuel pipe (1) and at same time the solenoid (3) open the tap (2) on pipe (1).

When air- pressure and fuel is passing through nozzle (7) mixture is homogeneous perfectly of pressure and will take a coniform with angle (8) on 90°, before ignition happens in side in the Reactor or combustion installation,. The Injector is assembled with a flange (9) on the Reactor. In the Reactor combustion is complete and results H ₂ O, CO ₂ and N ₂ it is drincable and it is part of the closed circuit, which can be gathered in reservoir (11) which belonging to outlet handling and will be recycled in labyrinth, seen (Annex 6, 7) The Flow of the fuel which are sucked in of air mass from the pipe (1) for fuel is; where: F = (Pl-P2)*πr ⁴ /8Lη sen (page 5/41, row 1) This Injector is simple to be mass produced and in the course of one or two years it can furnished in all warming installations, and it can stop the pollution that is coming out from the warming installation for all times with outlet handling and recycle labyrinth.

OUTLET HANDLING: for H ₂ CO ₃ and N ₂ sees Figure 5. .All the combustion installations that will use this new combustion process for all kinds of purified fuel will be equipped with a outlet handling system. All vehicles will be equipped with a outlet handling system for collect exhaust gas (H ₂ Cθ ₃ + N ₂ ). which is a manure. Table of signs for Figure 5: 1) Exhaust pipe with H ₂ O (steam/vapour) + CO ₂ (gas) + N ₂ gas which is obtain from new combustion process of a car that consumes 5 litres of gasoline, the outlet is 16 kg that will be compressed by a compressor in a reservoir.2) Compressor with a capacity of 16 kg/h. 3) Intake valve for the compressor.4) Exhaust valve for the compressor. 5) Pipe that furnishes the reservoir with [ H2θ(vapour)+CO ₂ (gas) +N ₂ ] — (H ₂ CO ₃ + N ₂ ) that will be compressed to 3 to 4 atm for clear out.6) Coupling valves for reservoirs, 7) Reservoir for 25 kg H ₂ CO ₃ . 8) Condenser to O ⁰ C.

Example: Calculate the mass of carbon dioxide CO ₂ , [and water H ₂ O ₅ ] that is established when 60 litres of gasoline burns up. p = The density 5 for engine gasoline is approximately 0,73 kg/dm ³ . One mass of gasoline is 0,73 kg. If that's so, 60 litres of gasoline has the mass of, m(C ₈ H ₁₈ ) = p ^• V = 0,73 ^• 60 = 43,8 = 4,38 ^• 10 ⁴ g. Formula of reaction:

2C ₈ Hi ₈ + 25O ₂ burns up to iil6CO ₂ + 18H ₂ O + N ₂ O n 384 ⁽²⁾ 3072 ⁽⁴⁾ 3456 mol m 4,38 ^• 10 ⁴ ?

? g

The relation between the masses of substance is: n(CO ₂ )/n(C ₈ H _I8 ) = 8/1 n(H ₂ O)/n(C ₈ H, ₈ ) = 9/1 5 Calculate the mass of substance CO ₂ och H ₂ O: n(CO ₂ ) = 8 ^• n(C ₈ H|g) = 8 ^• 384 = 3072 mol n(H ₂ O) = 9 ^• n(C ₈ H, ₈ ) = 9 • 384 = 3456 mol Calculate the mass of carbon dioxide and water: m(C0 ₂ ) = M(CO ₂ ) ^• n(CO ₂ ) = 44 g/mol ^• 3072 mol ~ 135 kg" ¹ 0 CO ₂ = 135 kg m(H ₂ 0) = M(H ₂ O) ^• n(H ₂ O) = 18 g/mol ^• 3456 mol ~ 62 kg

H ₂ O = 62 kg

Out of 60 kg gasoline through the combustion you get CO ₂ (135 kg) + H ₂ O (62 kg) this shall be compressed to 4 atm. inside a reservoir and becomes carbonic acid H ₂ CO ₃ . For this there is a need of a compressor that will compress everything that is exhausted from the engine. The capacity of the compressor shall be in relation to the exhaust of the engine. The compressor will be run with an electric motor of 0,300 kw, fron car battery. To build a reservoir you can use the law of gas:p-V = n-R-T V _b = the volume of the reservoir V _b = n- ((R T)/p) for p = 10 atm. Reservoir (7) for 25 kg H ₂ CO ₃ will be cleared out in reservoir (1) from recycle labyrinth.

¹ See Gymnasiekemi A, Stig Andersson, m.fl., Liber AB, 3 u, ISBN 978-91-47- 01875-8, p.1 14.

REACTOR sees Figure 9, 10 and 11. With this invention shall be solved climate crisis. The greenhouse effect will be stopped for ever. They are working with Injector sees in (Fig 8) in closed circuit without exhaust, H ₂ CO ₃ +N ₂ obtain from the combustible is part of closed circuitHave a cilindrical shape at the heads is mount spherical shape, constructed with the double wall and water at agent for cooling which is part of closed circuit. These reactors will be used in a closed circuit to produce vapour and hot water which will be warmed up directly in contact with flames. In this situation water takes up all heating value from the fuels. The combustion in reactor sees (Fig 9) shall be made up of 16 injectors sees (Annex 8) Reactor sees in (Fig 9).is produced with dubel wall and for cooling is used water which belonging closen circuit. Is constructing to work with inside combustion in closen circuit without exhaust.The reactor see (Fig 9) shall produced vapour or hot water for the turbine with a pressure of up to 200 atm or more, which will start the turbine. The water that is used for vapour will be injected into the reactor with a pressure of 250 atm. through a system formed like a shower, which sprays water over the flames which is in two rows or more. The water in direct contact with the heat of the flames will rapidly take up all heating value and transform into vapour. The size of the reactor is chosen in state to the quantity of vapour (or water) that is needed for starting up the turbine. An example for a reactor with 2 m in diameter is that 4 m ³ will be used for flame space and the rest is for a volume for stockroom of vapours and spiral pipe. .In the stockroom shall be assembled a spiral of the pipes which will be warming up usually water for apartments The vapour or water shall be stored up to 200 atm. before it is used inside the turbine together with H ₂ CO ₃ + N ₂ which is obtained from the new combustion process.The reactor sees (Fig 9) for vapour (or warmth water) has a valve, on the pipe for the turbine, the valve unlocks at 200 atm. This reactor sees (Fig 9)

can also use injector with coal that will have a shower that will be assembled under the flames. Example; for warming up 120 litre water to 100° degrees Celsius you need 1 litre combustible oil

Table of signs for Figure 9: 1) Reactor for inside combustion in a closed circuit, has a radius example of 1 ,5 m and with double wall (22, 23). 2) Injector see (Fig 8) for 250 atm compress air use 8 pieces on first row.3) Injector see (Fig 8) for 250 atm compress air use 8 pieces on second row. 4) The Distance between two rows of injectors 5) Valve which unlocks at 200 atm. 6) Tap on pipe for turbine.7) The pipe for turbine which is calculated with turbine necessity of water.8) Turbine.9) Return pipe 10) Valve to reservoir for H ₂ CO ₃ + N ₂ 11) Reservoir for 25 litres.12) Tap on return pipe on water pipe.13) Shower.14) Compressor for 250 atm. 15) Pipe for water to double wall for cooling and return.16) Tap on water pipe.17) Stockroom 14 m ³ e.g.18) Pipe for water in.19) Pipe for water to apartments.20) Pump for water.21) Pipe spiral for heating water. 22) Wall inside. 23) Wall outside.The reactor see (Fig 9) shall be hermetically isolated for a maximum efficiency and shall have a warning system for the maximum temperature of and for the maximum pressure. This reactor has zero exhaust of pollution. The reactor see (Fig 9) is used to warming up water which is going for cooling in return by apartaments. This reactor sees (Fig 9) will be isolated thermally for maximum efficiency and assemble a warning system for temperature and pressure.Efficiency η = 99, 98 %

REACTOR will be seen in Figure 10. Is produced with dubel wall and for cooling is used water which belonging closen circuit. Is constructing to work with inside combustion in closen circuit without exhaust, have cilindrical shape at the heads is mount spherical shape, constructed with the double wall and water at agent for cooling which is part of closed circuit. Table of signs for Figure 10: 1) Reactor has a radius of 2 m

example. 2) Injector see (Fig 8) for compressed air to 30 atm. use 6 pieces on first row. 3) Injector see (Fig 8) for compressed air to 30 atm, use 6 pieces on second row 4) Distance L=I m between row 1 and row 2, 5) Valve opened at 10 atm.6) Tap on pipe for place to live.7) Pipe to apartments.8) Apartments 9) Return pipe.10) Valve to recycling reservoir.11) Reservoir for 25 litres.12) Tap on return pipe.13) Shower.14) Compressor for 30 atm.15) Pipe for water.16) Tap on water pipe.17) Stockroom 8 m ³ example 18) Pipe for water in 19) Pipe for water to apartaments.20) Pump for water.21 Pipe spiral for warming up usually water to apartments. Example 1 litre combustible oil can warm up 120 litre water tolOO'C in contact direct with flame. In the stockroom shall be assembled a spiral of pipes for warming usually water for apartments. If you in reactor seen (Annex 10) with new combustion process consume 720 litres of combustible oil in 24 hours can warm up 86400 litre water at 100"C plus 2400 litres H ₂ CO ₃ +N ₂ obtain from the combustible, there shall be a total of 88800 litres. For warming up 3100 apartments with only 1300$ USA, the price will be 1300/3100= 0, 40$ only for an apartment, so cheap will it be, and it is equitably Efficiency η = 99, 98 %. With this reactor the price for warmth shall be 50 % less than the actual price of today, because is so little fuel that shall be used for heating up the water. REACTOR sees Figurell. is produced with dubel wall and for cooling is used water which belonging closen circuit. Is constructing to work with inside combustion in closen circuit without exhaust, is as big as D = 0,7 m and h = 1, 4 m used for a private house,have cilindrical shape at the heads is mount spherical shape, constructed with the double wall and water at agent for cooling which is part of closed circuit. The reactor will use injector (Annex 8) and a pressure of air at 5 atm. This Reactor shall warm up water to 100°C for the private house to be heated. . Water injected in through a shower directly on the flame This Reactor will consume two litre of combustible oil during 24 hours and will heat up 240 litres of water for

a private house. , In the stockroom shall be assembled a spiral of pipes for warming up usually water for private houses.AH these reactors doesn't pollute because they work in a closed circuit. A very good building, does that it can reach high water pressure or high vapour pressure and temperature..

Table of signs for Figure 11: 1) Reactor with radius R = 0, 35 m and L = 1, 4 m and will have a cylinders form. 2) Injector see (Fig 8) with compressed air at 5 atm. with two pieces. 5) Valve open at 3 atm. 6) Tap on pipe to the private house. 7) Pipe to the private house radiator. 8) The private house. 9) Return pipe. 10) Valve for outlet handling reservoir. 1 1) Reservoir from outlet handling. 12) Tap on water pipe.13) Shower.14) Compressor for 5 atm.15) Pipe for water.16) Tap for water, 17).Stoockroom, 18) Pipe for water to spiral.19) Pipe for water to apartaments 20) Pump for water, 21 ) Pipe spiral for warming up water to the private houses.22) Inside wall. 23) Outside wall. The H ₂ CO ₃ + N ₂ which is obtained from the new combustion process will be used for irrigation in the backyard with a recycle labyrinth. These reactors stop for ever the exhaust of pollution in the atmosphere, through burning of all kinds of combustible. The greenhouse effect is stopped for ever, Reactor see (Fig 9) in spiral pipe will be obtain 100° degrees or more, if the new combustion process is regulate so, for warming will be used vapor and H ₂ CO ₃ +N ₂ obtaining from new combustion process it work in close circle, example spiral pipe warming up crude oil for refine up it. These reactor with spiral pipe which not be on contact to the flame, shell be obtain high temperature over 100° degrees Celsius for the different utility, The reactor will be constructed with double wall, and water as agent for cooling which is part of a closed circuit.The flow for water, fuel, gas or air in a pipe is calculate with formula F seen (page 1/21, 25 row 5). In the Reactor the thermal efficiency is ηth < = 99, 98 % it is ideal, Reactor see Fig (9, 10, 11) most resist to 250. 40 and 15 atm.

LABYRINTH for recycele with H ₂ CO ₃ and N ₂ sees (Fig 6, 7) with is obtain from reactors, vehicles and combustion instalation, with this invention there will be irrigation on 50-200 ha ground with H ₂ Cθ ₃ +N ₂ it is obtein from new combustion process, within agriculture, for all the cultivatable plants with leaves. The labyrinth is good even for irrigation of woods nursery, and can even be used for irrigation in greenhouses. The irrigation shall carry on daily, shorter than 20 minutes a day until the ground will be saturated, or maybe every two days. This is up to the agronomist to decide. The labyrinth made out of pipes, see (Fig 6), with holes, see (Fig7), is built under the ground to a deep (profoundly) of 80 centimeters. Round the pipe there shall be a radius of 100 mm where there will be arranged a gravel circular round the pipe, for the hole not to be stuffed up with soil. The irrigation, with H ₂ Cθ ₃ +N ₂ is superb, CO ₂ as nourishment for the leaves that liberate O ₂ from CO ₂ and N ₂ as nourishment for the roots of the plant, which the irrigation make the vegetation to grow rapidly and also with intensity and gives an ecological product that all of the human kind needs. The recycle labyrinth can also be used where the people cultivate forage for the cows. For release of O ₂ from CO ₂ , bacteria ² can be used. For an excellent action against the greenhouse effect the previously mentioned bacteria should also work into the atmosphere. Table of signs for Figure 6: 1) Reservoir that will be filled up with H ₂ Cθ ₃ + N ₂ via valves (point 11 ) from outlet handling reservoirs. 2) Pump. 3) Tap. 4) Labyrinth made out of pipes with distance between 1,5 - 2 meters among the pipes and 1 meter towards the interior from the margin. 5) Return pipe to the reservoir. 6) Discharge pipe from reservoir with a tap on prior to the pump. 7) The distance 1 meter, from margin to the inside of the labyrinth, the labyrinth shall be

² See Gymnasiekemi A, Stig Andersson, m.fl., Liber AB, 3 u, ISBN 978-91 -47- 01875-8.

constructed in a way that the area is as big as possible so that's profitable.8) The distance 1,5 meters between the pipes in the labyrinth. 9) The labyrinth made out of pipes is buried in to the ground on a deep of 80 centimeters. 10) Round the pipe you must place gravel on a radius of 100 mm, to protect the holes of the pipe from not being blocked with soil. 11) The valve for filling the reservoir (1) with H ₂ CO ₃ + N ₂ from the recycle reservoirs. 12) Tap on the discharge pipe. Table of signs for Figure 7: 1) Pipe made of PVC. 2) The holes with φ = 2 - 5 mm. 3) Radius for the pipe is R > 100 mm. 4) Distance between the holes on the pipe is 1 > 50 mm and the angle between three holes on the same circumference will be 90° and the bottom of the pipe will not have any holes and shall be placed towards the deep of the soil/ground.The reservoir for H ₂ CO ₃ + N ₂ will be constructed, in condition to how many litres soil that daily is used up to become saturated, and how much the plants consume CO2 to produce O ₂ . From this reservoir obtain recycled CO ₂ .