PH12017000354A1

PH12017000354A1 - Power generating machine with air decontamination system

Info

Publication number: PH12017000354A1
Application number: PH12017000354A
Authority: PH
Inventors: Ruben Roldan Pesebre
Original assignee: Ruben Roldan Pesebre
Priority date: 2017-12-14
Filing date: 2017-12-14
Publication date: 2019-01-21

Abstract

The new invention, Power Generating Machine with Air Decontamination System, is a source of electricity utilizing water and air pressure potency. Specifically, it is a power generator that exploits precise volume of water flowing through penstock down to a turbine coupled to a generator while the absolute air pressure increases the descending speed and boosts the water bottom pressure thus, rotating the turbine and the generator at precise spin to produce electricity. Combined to function interdependently, the new invention made of particular materials includes: cylindrical water and air pressure reservoir, to hold and withstand required air pressure and volume of water; the penstock, where the required volume of water continuously flow downward; the cone-shaped channel chamber fixed at the bottom end of penstock to direct water flow into the pressurized water release valves to surge down toward the 45 degrees-set nozzles and precisely hit the Pesebre-Garcia Turbine inside the turbine casing; the water recycling tank, which contains 14.7psi atm, is positioned as pedestal of the invention and it is where the volume of water flows after rotating the turbine; the sediments catch basin is where the water flows after passing through the water recycling tank and having a water filtration material on its sides to separate and discharge the sediments into the catch basin release valve; the cylindrical reaction tank with decontaminated air discharge control valve and tube inlet valve and pressure gauge controlled by the attached pneumatics situated on top the said reaction tank, supplies the water and air pressure reservoir with specific volume of water pushes by the sterilized air pressure upward through the main water recycling pipe; the sterilized air pressure container, where air contaminants sterilization process occurs and which supplies sterilized air pressure to the reaction tank that causes the ~olume of water inside it to flow upward to the water and pressure reservoir and flows down again through the penstock to create water and air pressure cycle in producing power synchronized with the air decontamination process; a required air compressor delivers in time pressurized air to the sterilized air pressure container.

Description

feed pressure gauge (83a) opens for the sterilized air pressure container (80) deliver specific™ volume of sterilized pressurized air causing the main water recycling pipe check valve: (71a) to open. Thus, the filtered water in the said reaction tank is pushed upward to

WAPRes (10) through the main water recycling pipe (72a). As the reaction tank (70a) or “A Side” is supplying specific volume of water to WAPRes (10), the reaction tank (70b)— or “B Side”, which decontaminated air discharge control valve (73b) and bottom, ., recycling pipe & check valve (64b) are open, is receiving exactly the same specific” volume of water flowing down from the WAPRes (10). =

FIG. 1d shows the internal elements and the flow direction of the water from the:

WAPRes (10) filled with input pressurized air that enhance the surging of water and boost up its bottom pressure (water bottom pressure or wbp) through the 45 degrees set nozzles (32) and spins the Pesebre-Garcia Turbine (41) at a required revolution per minute (rpm). Then down the water recycling tank (50) and the sediments catch basin (60) up to the reaction tank (70b), which when filled with the required volume of filtered water its decontaminated air discharge control valve (73b) and bottom recycling pipe & check valve (64b) closed. At the same time its pressurized air tube inlet valve with pressure gauge (83b) opens for the sterilized air pressure container (80) deliver specific volume of sterilized pressurized air causing the main water recycling pipe check valve (71b) to open. Thus, the filtered water in the said reaction tank is pushed upward to

WAPRes (10) through the main water recycling pipe (72b). As the reaction tank (70b) or “B Side” is supplying specific volume of water to WAPRes (10), the reaction tank (70a) or “A Side”, which decontaminated air discharge control valve (73a) and bottom recycling pipe & check valve (64a) are open, is receiving exactly the same specific volume of water flowing down from the WAPRes (10).

The descriptions of the drawings from Fig. 1a to Fig. 1d is summarized as follows: While RT (70a) at the “A Side” is supplying precise volume of water to

WAPRes (10), the same volume of water is flowing down the Pen (20) and passes through the same routes until it reaches SCB (60). But this time, the filtered water flows through “B Side” and enters RT (70b) of the preferred embodiments as its

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BRPCV (64b) is now open to allow entry for the filtered water while the BRPCV (64a) at” the “A Side” of the preferred embodiments is close and the volume of water inside RT. (70a) is being pushed upward to WAPRes (10). The processes involved in pushing the”, water upward at the “A Side” of the preferred embodiments is repeated at the “B Side” (FIG. 1d) and are incessantly repeated but alternately to sustain the required volume: and circulation of water and air pressure at the WAPRes (10) and each RTs (70a and." 70b) and other embodiments of the new invention resulting to the stable production and distribution of electricity to the power consumers as in FIG. 1f synchronized with sucking polluted air from the environment, sterilizing air pollutants and then releasing the decontaminated air to where WAPPGens are built as in FIG.1e. =

FIG. 2 illustrates the system using the embodiment of the water-air pressure reservoir or WAPRes (10), a cylindrical water container made of metal that can hold and withstand the pressure of the required volume of water. On top of it is the pressure gauge and relief valve or PGRV (11), which monitors the amount of air pressure content including relief of any excess inside the reservoir. Attached outside its wall is the water level gauge (WIg) to determine its water level content.

FIG. 3 shows the system using the embodiment of the Pen (20), which is connected below the flooring of WAPRes (10) through welded joints (Wj). It serves as the passageway for the flowing water from WAPRes (10). To make it detachable, it is cut several inches from WAPRes (10) but connected through a flange (F).

FIG. 4 shows the system using the embodiment of the customized set of cone- shaped channel chamber or CSCC (30), which is connected through a flange (F) at the bottom of Pen (20) to direct the rushing water down the pressurized water release valves or WRV (31), which, through their outlets, release the surging water to the 45 degrees set of nozzles or Noz (32) hitting the blades of the turbine below and located inside the ensuing embodiment.

FIG. 5 shows the system using the embodiment of the customized set of turbine casing or TC (40) is where the customized Pesebre-Garcia Turbine or PGT (41) is located with a ball bearing or BB (42) attached into it to make its rotation stable, and it co is coupled to the power generator (G) by the generator shafts & gears or GSG (43): situated at the generator shafts & gears tunnel or GSGT (44). =

FIG. 6 shows the system using the embodiment of the water recycling tank or

WRT (50), which contains 14.7psi atmospheric pressure, is where the volume of water falls after rotating PGT (41) and the power generator (G) to produce electricity, and it is. where the soluble CO2 and other sediments are being pushed downward to submerge at the bottom of the sediments catch basin. o -

FIG. 7 shows the system using the embodiment of the customized sediments catch basin or SCB (60), where the water falls after passing through the WRT (50) then goes toward the water filtration material or WFM (62a) to separate and discharge the sediments (e.g., liquefied carbon dioxide and other sediments) into the sediments catch basin release valve or CBRV (61). To make the filtered water passes goes up to the reaction tank or RT (70a / 70b), it has to pass through the bottom recycling pipes or BRP (63a / 63b), the bottom recycling pipes check valve or BRPCV (64a / 64b), and the elbow (E).

FIG. 8 shows the system using the embodiment of the water-air pressure reaction tank or RT (70a / 70b), when almost filled with the specific volume of filtered water, the main recycling pipe check valve or MRPCV (71a / 71b) opens up through specific air pressure to allow its entry into the main recycling pipe or MRP (72a /72b) and is pushed upward by specific air pressure until it gets inside WAPRes (10). The decontaminated air discharge control valve or DADCV (73a / 73b) is attached on top of the RT (70) as an outlet for the decontaminated air providing continuously the atmosphere with a clean air (FIG. 1e).

FIG. 9 shows the system using the embodiment of the customized sterilized air pressure container or SAPC (80), which is where the second phase of incinerating air pollutants occurs due to extreme heat generated by compressed air, and which causes the pushing of the filtered water upward inside the MRP (72a) by releasing the sterilized t } font air pressure from air compressor (C), where the first phase of incinerating air pollutantscs occurs, through pressurized air distribution tube inlet & pressure gauge or TIPG (81) down the RT (70a / 70b) through its pressurized air outlet, the double tees or Dt (82) and through the sterilized pressurized air distribution tube inlet valve & pressure gauge or TIVPG (23a / 83b), which by means of the pneumatics movements opens... when it is time for RT (70a / 70b) to deliver its contained volume of water to WAPRes, (10), and closes when emptied of water preventing pressurized air rush inside RT (70a /70b). | =

J

I CLAIM: 1. A power generating machine with air decontamination system wherein water and air pressure (WAP) principles and functions are utilized to produce sufficient electricity, : being defined through the formulation of this equation: WAP = volume of water inside a perpendicular spherical reservoir and penstock + absolute pressure (gauge pressure + 14.7psi atm) + water bottom pressure (0.433psi x column of water/ ft.) or WAP = vw + ap + wbp; 2 A power generating machine with air decontamination system using water and air pressure to produce electricity in combination with an air compressor, a computer software, programmable logic controller (PLC), computerized monitoring devices, and comprising the following parts which are all made of steel: a water-air pressure reservoir with pressure gauge mounted on top of it to monitor the amount of air pressure content and reicases excessive air pressure through the air pressure relief valve attached to it, with water level gauge mounted outside its wall to determine its water level content, and with provision of holes at its sides as water outlets of the perpendicular water recycling pipes; a penstock mounted below an opening at the middle of the fiooring of vvater-air pressure reservoir to serve as the passageway for the water flowing from the water-air pressure reservoir to the cone-shaped channel chamber;

ro -

POWER GENERATING MACHINE WITH AIR DECONTAMINATION SYSTEM je

USING WATER AND AIR PRESSURE .

The invention called “System of Producing Electricity Through Water and Air

Pressure”, which was issued with Patent No.1-2005-000208 on May 12, 2009, is a system that shows how the principles behind the merging of water and air pressure worked together to produce electricity. This was demonstrated through a vertical structure made of steel that required a precise diameter and height, particularly the = penstock, to show the importance of gravitational force as the prime mover in making © the water and air pressure work effectively to produce the required power output.

Conversely, the new invention which is the “power generating machine with air decontamination system using water and air pressure” or briefly called as water-air pressure power generator (WAPPGen) is the improved version of the previous one.

It is a power generating machine synchronized with air decontamination system that uses the pressures of water and air with less gravitational force requirement and yet could produce the required output of electricity.

Just like the previous invention, WAPPGen aims to: a) produce low-cost and augment the supply of electricity; b) address the ongoing worldwide price hike of electricity as it will entail low-cost construction, will not use expensive fuels to operate, and there will be no system losses since its generated electricity does not have to travel miles-length wires from the remote power plants (hydroelectric, thermoelectric, geothermal, etc.) to the consumers as this could be put up within their community or wherever possible within their reach; c) arrest the problem on the scarcity of energy by putting it up wherever possible (e.g., within the residential, commercial, or industrial areas; within the municipality or city; in a compound; or inside a commercial/industrial building); d) provide the power-generating industry with a new technology that is manageable or easy to operate, environment-friendly as it has an air cleansing system, and highly profitable because it will not use fuels and will not require lengthy expensive copper cables and steel towers carrying high-voltage power transmission lines (which expose people to danger) and hundreds of 2

Fed thousands of aluminum conductors (which eat up large amount of operational funds - of the existing power plants). =

Still another very important objective of the new invention is to help reduce (or in large scale avert) air pollution in the vicinity where it is built by capturing from the i. atmosphere, particularly the soluble carbon dioxide through direct air carbon = sequestration procedure (DACSP), combustible methane (if any) and other 1 environmental health hazards, which are decontaminated during the process of ~ producing electricity and are released back to the atmosphere as clean air. &

WAPPGen is obviously different from the Carbon Capture and Storage (CCS) = technology which was developed to sequester CO2 from the fossil-fuelled power - plants. CCS is operating by means of the electricity being generated by the fossil- fuelled power plants themselves where it is set to sequester their CO2 emissions.

According to the energy and climate scientist, Kevin Anderson, “the more CCS, the more atmosphere pollutant carbon dioxide they (fossil-fuelled power plants) will produce.” CCS technology is dependent on the electricity being generated by the fossil-fuelled power plants because it is not capable to produce power by itself, while

WAPPGen'’s air decontamination process is synchronized with generating electricity making it as the source of electricity with air decontamination system (SEADS).

WAPPGen will be able to decontaminate and can release into the surrounding where it is built approximately 30% of the polluted air it sucked. Thus, by regular sucking, decontaminating and releasing clean air, time will come wherein almost all of the air contaminants in the atmosphere will be sequestered through WAPPGen should it be built everywhere.

Other objectives and advantages of the present invention will become apparent upon reading the detailed descriptions stated herein together with accompanying drawings.

Figure 1 is a longitudinal sectional view of the embodiment of the new invention showing the internal elements and herein illustrates the components of the structure which consists of the embodiments that function interdependently;

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Figure 1a is a longitudinal sectional view of the embodiment of the new . invention showing the internal elements and the flow direction of the water (blue x arrows) and air pressure (broken black arrows) from the water and pressure reservoir oe to the penstock; -

Figure 1b is a longitudinal sectional view of the embodiment of the new invention - showing the internal elements and the flow direction of the water (blue arrows) and air, pressure (broken black arrows) from the water and pressure reservoir to the penstock - and toward the “A Side” of the embodiments as shown by arrowheads by means of the = atmospheric pressure plus the weight of water; =

Figure 1c is a longitudinal sectional view of the embodiment of the new invention + showing the internal elements and the flow direction of the water (blue arrows) and air pressure (broken black arrows) from the water and pressure reservoir to the penstock and toward the “B Side” of the embodiments as shown by arrowheads while “A Side” delivers volume of water to the WAPRes (10) to sustain the water cycle in the system as shown also by arrowheads by means of input pressurized air;

Figure 1d is a longitudinal sectional view of the embodiment of the new invention showing the internal elements and the flow direction of the water (blue arrows) and air pressure (broken black arrows) from the water and pressure reservoir to the penstock and toward the “A Side” of the embodiments as shown by arrowheads while “B Side” delivers volume of water to the WAPRes (10) to sustain the water cycle in the system as shown also by arrowheads by means of input pressurized air;

Figure 1e is a longitudinal sectional view of the embodiment of the new invention showing the internal elements and the enabling procedure relating to air decontamination and emission of cleansed air into the atmosphere;

Figure 1f is a longitudinal sectional view of the embodiment of the new invention showing the internal elements and illustrating its energy balance and the destination of the flow of electricity which it produces as well as the process of the self-sustaining power start-up;

EEE ———— ho

Figure 2 is a perspective view of a water-air pressure reservoir with two water =~ inlets and one air pressure inlet, and a hole is provided at the center of its floor while - below is a portion of the penstock; -

Figure 3 is a perspective view of a penstock with flanges;

Figure 4 is a see-through perspective view of an inverted cone-shaped channel = inside the chamber and shown below are the water release valves, and inside the dotted 1 turbine casing are the nozzles and the turbine; -

Figure 5 is a see-through perspective view of the turbine casing with a tunnel = and showing inside it is the Pesebre-Garcia Turbine coupled to the generator through o the generator shafts & gears;

Figure 6 is a perspective view of a water recycling tank showing the flange on top where to attach the turbine casing and the flange below where to attach the sediment catch basin, and holes are shown where the water will pass through;

Figure 7 is a perspective view of a sediment catch basin with a water filtration materials showing the bottom recycling pipe and check valve;

Figure 8 is a perspective view of a reaction tank showing the main recycling pipe and check valve, and the pressurized air inlet and decontaminated air discharge control valve on top; and

Figure 9 is a perspective view of a sterilized air pressure container showing the pressurized air inlet from the compressor, the pressurized air distribution tube inlet and pressure gauge, and the air pressure pipe & control valve.

Referring now to the drawings (FIGS. 1, 1a, 1b, 1c, 1d, 1e, 1f) in detail in the processes involved as electricity is produced, wherein:

FIG. 1 is shown the new invention of a power generating machine with air decontamination system using air and water pressure to produce electricity which consists of the preferred embodiments that function interdependently. The preferred i embodiments are designated with reference numerals 10, 11, 20, 30s, 40s, 50, 60s, 70s and 80s. Water-air pressure reservoir or WAPRes (10), a cylindrical container or the required volume of water; penstock or Pen (20) is a long and broad tube connected below the flooring of WAPRes (10) through welded joints (Wj) and serves as the-~ passageway of the flowing water from WAPRes (10); cone-shaped channel chamber or CSCC (30) is cylindrical, customized and connected through a flange (F) at the bottom of Pen (20) to direct the water rushing down the pressurized water release valves or WRV (31), which, through their outlets, release the water to the 45 degrees, set of nozzles or Noz (32) down into the blades of the turbine; turbine casing or TC. - (40) is where the customized Pesebre-Garcia Turbine or PGT (41) is located with a” ball bearing or BB (42) attached into it to make its rotation stable, and it is coupled to. the power generator or (G) by the generator shafts & gears or GSG (43) situated at” the generator shafts & gears tunnel or GSGT (44); water recycling tank or WRT" (50), which contains 14.7psi atm, is where the volume of water falls after rotating PGT (41) and the power generator (G) to produce electricity, and it is where the soluble CO2 and other sediments are being pushed downward to submerge at the bottom of the sediments catch basin; sediments catch basin or SCB (60) is where the water falls after passing through the WRT (50) then goes toward the water filtration material or

WFM (62a / 62b) to separate and discharge the sediments (e.g., liquefied carbon dioxide) into the sediments catch basin release valve or CBRV (61) while the filtered water goes to the bottom recycling pipes or BRP (63a / 63/b) and into the bottom recycling pipes check valve or BRPCV (64a / 64b), which opens up at the right timing to allow entry of the filtered water; reaction tank or RT (70a / 70b) is where the reaction on filtered water by the 14.7atm and pressurized air pressure happens to enable the filtered water enter the main water recycling pipe or MWRP (72a / 72b) through its check valve or CV (71a / 71b), and on top of the said reaction tank is the decontaminated air discharge control valve or DADCV (73a / 73b) which emits clean air; and sterilized air pressure container or SAPC (80), which receives the sterilized air pressure coming from the air compressor (C) through its tube inlet & pressure gauge or TIPG (81) and, with the use of its pressurized air outlet (two double tees or Dt (82), the sterilized air pressure is released to the reaction tank (70a / 70b) but its entry through the tube inlet valve & pressure gauge or TIVPG (83a / 83b) is controlled by means of the pneumatics. Connecting SAPC (80) to the wall of WAPRes (10) is the air bos pressure pipe & control valve or APPCV! (84) to provide the latter with the required» amount of air pressure while another APPCV? (85) below SAPC (80) connects it to the:

TC (40) to keep the WRT (50) from clogging which may be caused by sediments. oe od

FIG. 1a shows the internal elements and the flow direction of the water which, _. during the set-up for the start of the operation, flows from the water-air pressure reservoir (10) through penstock (20), down the cone-shaped channel chamber (30) as represented by blue arrows to show the direction of the flow of water. -

FIG. 1b shows the internal elements and the flow direction of the water from the= water-air pressure reservoir (10) through the penstock (20), down the cone-shaped- channel chamber (30) and pressurized water release valves (31) which when opened the water surges to the Pesebre-Garcia Turbine (41) through the 45 degrees set of nozzles (32) and to the water recycling tank (50) down the sediments catch basin (60) then goes toward the “A Side” of the preferred embodiments by passing through the water filtration material (62a) then to the bottom recycling pipe (63a) and the bottom recycling pipe check valve (64a), which opens up at the right timing to allow entry of the filtered water into the reaction tank (70a) wherein the decontaminated air discharge control valve (73a) set on top the reaction tank is open to allow atmospheric pressure escape and accommodate the water inside. At this point, the decontaminated air discharge control valve (73b) set on top the reaction tank (70b) and the bottom recycling pipe check valve (64b) at the “B Side” are close due to the conserve atmospheric pressure inside, thus the water prevents from entering.

FIG. 1c shows the internal elements and the flow direction of the water from the

WAPRes (10) filled with input pressurized air that enhance the surging of water and boost up its bottom pressure (water bottom pressure or wbp) through the 45 degrees set nozzles (32) and spins the Pesebre-Garcia Turbine (41) at a required revolution per minute (rpm). Then down the water recycling tank (50) and the sediments catch basin (60) up to the reaction tank (70a), which when filled with the required volume of filtered water its decontaminated air discharge control valve (73a) and bottom recycling pipe & check valve (64a) closed. At the same time its pressurized air tube inlet valve with

Claims

t } font air pressure from air compressor (C), where the first phase of incinerating air pollutantscs occurs, through pressurized air distribution tube inlet & pressure gauge or TIPG (81) down the RT (70a / 70b) through its pressurized air outlet, the double tees or Dt (82) and through the sterilized pressurized air distribution tube inlet valve & pressure gauge or TIVPG (23a / 83b), which by means of the pneumatics movements opens... when it is time for RT (70a / 70b) to deliver its contained volume of water to WAPRes, (10), and closes when emptied of water preventing pressurized air rush inside RT (70a /70b). | = J I CLAIM:

1. A power generating machine with air decontamination system wherein water and air pressure (WAP) principles and functions are utilized to produce sufficient electricity, : being defined through the formulation of this equation: WAP = volume of water inside a perpendicular spherical reservoir and penstock + absolute pressure (gauge pressure +

14.7psi atm) + water bottom pressure (0.433psi x column of water/ ft.) or WAP = vw + ap + wbp;
2 A power generating machine with air decontamination system using water and air pressure to produce electricity in combination with an air compressor, a computer software, programmable logic controller (PLC), computerized monitoring devices, and comprising the following parts which are all made of steel: a water-air pressure reservoir with pressure gauge mounted on top of it to monitor the amount of air pressure content and reicases excessive air pressure through the air pressure relief valve attached to it, with water level gauge mounted outside its wall to determine its water level content, and with provision of holes at its sides as water outlets of the perpendicular water recycling pipes; a penstock mounted below an opening at the middle of the fiooring of vvater-air pressure reservoir to serve as the passageway for the water flowing from the water-air pressure reservoir to the cone-shaped channel chamber;

rr rr ' — an cone-shaped channel chamber connected at the bottom of penstock to: direct the rushing water down the pressurized water release valves which, through their. outlets, release the water to the 45 degrees set of nozzles down into the blades of the. turbine adapted to be attached to a generator to produce electricity; a Pesebre-Garcia Turbine Casing is where the customized Pesebre-Garcia._., Turbine is located with a ball bearing attached into it to make its rotation stable, and it is, , attached to the power generator by the generator shafts & gears situated at the” generator shafts & gears tunnel; = a water recycling tank, positioned as pedestal of the structure, and it is also where the soluble CO2 and other contaminants are being pushed downward tor submerge at the bottom of the sediments catch basin; a sediment catch basin mounted at a hole located at the center of the water recycling tank's floor, serves as the pressurized water outlet toward the bottom horizontal water recycling pipes, and having a catch basin release valve mounted below for the discharge of sediments; a reaction tank, mounted on top of the bottom water recycling pipes using an elbow to direct the required volume of filtered water upward to get inside the said reaction tank, and having a main recycling pipe check yaive to serve as the inlet of the filtered water going upward into the water-air pressure reservoir by passing through the main recycling pipe, the upper end of which is attached to the wall of the said water-air pressure reservoir, and also having a decontaminated air discharge valves mounted on top of the reaction tank where the cleansed air is released to the surroundings; and a sterilized air pressure container is where the filtered pressurized air from the air compressor are released to the reaction tank with the use of two double tees and : 25 the sterilized pressurized air distribution tube inlet valves & pressure gauge and where a sufficient heat accumulation due to air compression incinerates again the remaining air contaminants.
3. A power generating machine with air decontamination system using water and air pressure to produce electricity as in claim 2 wherein said cone-shaped channel - 30 chamber is being defined as a compartment for the customized cone-shaped channel bod - stainless steel mounted on reversed position and having vertical strait around it to: channel the rushing water down the pressurized water release valves then to the 45. degrees set of nozzles and down to the blades of the turbine adapted to be attached tor. a generator to produce electricity; , -
4. A power generating machine with air decontamination system using water and air, pressure to produce electricity as in claim 2, wherein said turbine casing is being, defined as a covering for the customized Pesebre-Garcia turbine is located with a ball bearing attached into it to make its rotation stable and it is attached to the power generator by the generator shafts & gears situated at the generator shafts & gears” tunnel: ot
5. A power generating machine with air decontamination system using water and air pressure to produce electricity as in claim 2, wherein said sediment catch basin is being defined as the dumping mechanism of all solid and liquefied residues from the water which are separated through water filtration material and having a;release valve mounted below it.
6. A power generating machine with air decontamination system using water and air pressure to produce electricity as in claim 2, wherein said reaction tank is being defined as a cylindrical tank made of metal mounted on top of the bottom horizontal water recycling pipes and having a main recycling pipe check valve to serve as the inlet i of the filtered water going upward into the water-air pressure reservoir passing through the main recycling pipe, the upper end of which is attached to the wall of the said water- air pressure reservoir, and also having; a ‘decontaminated air discharge valves mounted on top of the reaction tank where the cleansed air is released to the surroundings; ®
7. A power generating machine with air decontamination system using water and air pressure to produce electricity as in claim 2, wherein said sterilized air pressure container is being defined as a cylindrical container made of metal (where the second stage of incinerating air pollutants occurs) and which releases the sterilized air pressure from the air compressor (where the first stage of incinerating air pollutants occurs) by having two double tees and sterilized pressurized air distribution tube inlet valves &

\ v7 fo pressure gauge toward the pneumatics which are the muscles of the eventual distribution of precise air pressure from the sterilized air pressure container to the water-r.. air pressure reaction tank. ht
8. A power generating machine with air decontamination system using water and air pressure to produce electricity as in claim 2, wherein said computer software or, i programmable logic controller (PLC) which controls the movements of the, pneumatics and is connected to the computer system for function monitoring purposes.
9. A power generating machine with air decontamination system using water and air pressure to produce electricity as in claim 2, wherein a computer room is provided for= the said computer system which monitors the required power for the air compressor to deliver exact air pressure to the sterilized air pressure container, and also monitors the supply of precise and steady flow of electricity to the consumers.