Vorthy engine for heating

Choosing the correct heating system is crucial for keeping our homes toasty and comfortable during the colder months. Selecting the ideal option for your home can be overwhelming due to the abundance of options available. The worthy engine for heating is one heating option that has gained popularity recently. With its efficiency, dependability, and sustainability, this cutting-edge technology is an appealing option for homeowners wishing to modernize their heating systems.

In contrast to conventional heating techniques that depend on electricity or fossil fuels, worthy engines utilize renewable energy sources like solar, geothermal, or biomass energy. This is an environmentally friendly substitute since it lowers carbon emissions while also reducing dependency on limited resources. Worthy engines enable homeowners to reduce their carbon footprint while maintaining comfortable interior temperatures by utilizing these renewable energy sources.

The high efficiency of worthy engines is one of their main benefits. These systems are made to produce the most heat with the least amount of energy, which saves homeowners money over time and on utility bills. The combustion process and heat transfer mechanisms can be optimized to provide worthy engines with exceptional performance without wasting energy.

Another appealing feature of worthy engines is their versatility and adaptability to different types of homes. Whether you live in a small apartment or a large house, there is a worthy engine solution that can meet your heating needs. From standalone units to integrated systems, homeowners have the flexibility to choose the setup that best suits their space and lifestyle.

In addition, respectable engines are long-lasting and dependable, providing steady heating even in the coldest weather. These systems can give homeowners long-term comfort and peace of mind for decades if they are properly maintained. Furthermore, a lot of deserving engine models have sophisticated features like smart controls and remote monitoring that enable easy operation and energy efficiency.

In conclusion, worthy engines are a promising development in the field of home heating technology. For homeowners looking to upgrade their heating systems, these systems present a compelling option because they maximize efficiency, offer versatility, and harness renewable energy sources. Worthy engines are leading the way towards a more sustainable and environmentally friendly future for home heating with their economical advantages, dependable performance, and eco-friendly features.

Links rule

• Andrey Butorin – "Picture of Paradise"
• Andrey Butorin – "The daughter of the heavenly spirit"
• . Metro2033.ru (January 20, 2013). Retrieved 23 February 2013.

P • o • P	Trilogy "Peninsula of Hope"
Books	“North” • “Siege of Paradise” • “Daughter of the Heavenly Spirit” “Peninsula of Hope” (collection)
Characters	Nanas • Nadezhda Budina • Seid • Semyon Budin • Svetlana Budina • Snowlah • Siladan • Arodan • Sergey Nicoshin • Roman Andreevich • Julia, Lyudmila and Anna • Sersosh • Nikigor • Milestone • Viktor Safonov • Ignat Safonov • Oleg Yarchuk • Vitaly Kirkin • Andrey Dalistyants • Konstantin • Konstantin Parsykin • Alexander Smurnov • Anna Aleksandrovna • Sergey Bazhov • Alexander Sorokin • Mountains • Mountains • Sheka • Turu • Svetlana Smirnova • Sergey Konovalov • Mitrofanov • Igor Bryukhaankov • Yuri Gorshkov • Sergey Grishin • Vladimir Novoseltsev • Tulkanov • Rashidov • Victor Potapov • Andrey • Andrey • Andrey • Andrey • Andrey • Andrey Selivanov • Bazz • Yandex
Locations	Murmansk region: Sami Syt • Lovozero (Lake • village) • LOOD TUNDRA • Seidozero • Revda • Kola • Murmansk • River Tuloma • Ura-Guba • Vidyaevo • Lake Imandra • Olegorsk • Monchegorsk • North-Kilon • 27 kilometers • Polar dawns • NPP • Kirovsk • Apatity • Kirovsk • Apatitis • Apatitis • Kandalaksha • Kandalaksha BayKarelia: Kem • Loukhi • Chupa • Kandalaksha GulfFinland
Creatures	Reasonable dog • Bolshoi • Horned scaly hare • blue -eyed • caterpillar • White snake • Bear • Great fish • worm
Organizations	Sami Siyt • Olenegorsk bandits • Yula • Polar dawns • Barbaras
Other	Magic stone • Dopol • Installation of Potapov
Andrey Butorin • Metro Universe 2033 • AST •

History of creation

At the time, the French scientists mocked the report and showed mistrust for this invention. Ranke created in 1933. during a French Physical Society meeting. For these scientists, the operation of a vortex pipe—which divided the air supplied into it into hot and cold streams—was a marvelous example of a "demon of Maxwell," defying the laws of thermodynamics. However, the vortex pipe functioned and went on to be widely used in numerous technological fields, primarily for getting cold.

We believe that Leningrader’s most intriguing pieces are in. E

Finko, who highlighted several paradoxes in the vortex pipe, created a ruddy gas cooler in order to achieve extremely low temperatures. He found infrared gas radiation from its axial area and described the process of gas heating in the vortex pipe’s prey region using the "gas extension and compression mechanism of the gas." These discoveries helped us comprehend how Potapov’s vortex heat generator operated.

In the vortex pipe of the wound, the diagram of which is shown in Figure 1, the cylindrical pipe 1 is connected by one end to the snail 2, which ends with the nozzle input of a rectangular cross section, which ensures the supply of compressed working gas into the pipe along the tangent of the circle of its inner surface. From another end, the snail is closed by a diaphragm 3 with a hole in the center, the diameter of which is significantly smaller than the internal dimeter of the pipe 1. A cold stream of gas comes out of the pipe 1 through this hole, which is divided during its vortex movement in the pipe 1 into cold (central) and hot (peripheral) parts. The hot part of the stream adjacent to the inner surface of the pipe 1, rotating, moves to the far end of the pipe 1 and comes out of it through the ring gap between its edge and the adjusting cone 4.

Image 1: Vorthy pipe applied to the wound 1. a pipe; 2. snails; 3. a hole-filled aperture; 4. an adjustable cone.

The finished and consistent theory of the vortex pipe still does not exist, despite the simplicity of this device. “On the fingers” it turns out that when unwinding the gas in a vortex pipe, it is compressed under the action of centrifugal forces at the walls of the pipe, as a result of which it heats up here, as it heats up when compressed in the pump. And in the axial area of the pipe, on the contrary, the gas experiences a vacuum, and then it cools, expanding. Withdrawing gas from the prey zone through one hole, and from the axial – through the other, and reach the separation of the initial gas flow into hot and cold streams.

In contrast to gases, fluids are not really compressed. As a result, no one thought to serve water in a vortex pipe rather than gas or steam for more than fifty years. And instead of using gas in the experiment, the author chose to use water from the water supply in a vortex pipe, which seemed to be an almost hopeless choice.

He was shocked to see that the water in the vortex pipe had split into two distinct streams with varying temperatures. But warm and hot instead of cold and hot. Because the temperature of the "cold" flow into the vortex pipe was marginally higher than the temperature of the source water that was supplied by the pump. Extensive calorimetry demonstrated that this kind of device generates more thermal energy than the pump’s electric engine uses to deliver water into a vortex pipe.

Thus, Potapova, a heat generator, was created.

Production schemes for the heat generator of the cavitation type

In order to make a valid device with your own hands, consider the drawings and diagrams of the existing devices, the effectiveness of which is installed and documented in the patent bureau.

Illustrations	General description of the designs of cavitation heat generators
	General view of the unit. Figure 1 shows the most common circuit of the device of the cavitation heat generator.

The twisting chamber is mounted atop a vortex nozzle, denoted by the number 1. The centrifugal pump (4) is connected to the input pipe (3), which is visible from the side of the twist chamber.

The diagram’s number six denotes the inlet pipes needed to produce a counter-indignant flow.

One of the most significant components in the schematic is the resonator (7), which is a hollow chamber whose volume is adjusted by a piston (9).

Throatches, which guarantee the regulation of the intensity of the water flow supply, are represented by the numbers 12 and 11.

One of the fifteen resonators is constructed as a hollow chamber that encircles the nozzle denoted by the number five. The device’s return end places the second resonator (16), which is likewise shaped like a hollow camera, right next to the entrance pipes (10) that supply the disruptive flows.

The device’s operating mode and the intensity of the liquid medium supply are controlled by the throws designated with numbers 17 and 18.

This scheme encloses the resonator’s output (21) with a vortexponk (1) nozzle (5). On the other hand, if you look at a resonator with number 19, you can see that it has an input hole (22) at number 20.

Illustrations	Description of the Twist (Snail) camera in the design of the cavitation heat generator
	"Snail" of the cavitation heat generator in the transverse section. The following details can be seen in this scheme:

(1) the hollowed-out case that contains all essentially significant components;

2-the shaft that holds the rotary disk in place;

3-a rotating ring

5. Gaps in technology in the stature;

Sixth, rod-shaped emitters.

Since it is best to cast the elements, the main challenges in their manufacture can arise in producing a hollow body.

Such a design, though damaged for strength, will have to be welded since a home workshop lacks the equipment for casting metal.

This outcome will be achievable if all the details in the aggregate gathered in accordance with the suggested plan match precisely with one another.

That is, you can adjust the hydraulic shocks’ intensity to cause energy to be released based on the rotary disk’s rotational speed. In other words, the temperature of the aquatic medium at the output will rise in proportion to the disk’s speed of rotation.

Buy or make

As you can see, heat generators are extremely expensive. Since not everyone can afford it, economists attempt to create it on their own. The welfare of the family is a direct factor in determining whether to buy or do it on your own, but human abilities also play a role. Since the device’s design has a fairly intricate structure, it is best to avoid taking chances and wasting time if there are none.

As a result, the cavitation heat generator is a great choice for a backup home heating source. That being said, the vast majority of people on the planet cannot afford it.

It is possible to assemble it by hand, but this step is only necessary if you possess a certain kind of skill.

Device and purpose to rule

Potapov’s installation resembles a sizable metal cage that can accommodate five or six persons. It is covered in numerous wires and has a variety of devices on its frame that the reader is unable to identify. There are multiple seats set up within the cage. The installation itself is situated at the steam line, reactor level, of the Kola NPP.

The Potapov installation means that an individual’s (the installation operator’s) mental capacity can be multiplied many times when exposed to high radiation levels. All residents of the district experience mental waves that travel throughout their consciousness and form the essential sensations in them. Thus, installation has the power to make those around it feel things like fear at the operators’ request. It is possible to force adversaries who are present in the installation area to leave the station.

Potapov considered the potential risk of installation for the station staff when designing the device. Because of this, the mental field inside the station does not threaten people, and its influence grows as it moves outside of the station. When the distance between the source and the receiver increases, the field becomes weaker until it reaches a point where the radiation power is sufficient.

Only a select few, or psychics, who possess the specific ability to transmit thoughts across distances, could be Potapov’s installation operators. It turns out that operators have a role to play. Because of the lack of installation, the operators must frequently swap out because they are exposed to radiation for extended periods of time due to their close proximity to powerful radiation sources.

Warming of a vortex engine

The device has to be insulated before it can be operated. This is completed subsequent to the casing’s construction. It is advised that the structure enclose the thermal insulation. Usually, the material resistant to high temperatures is utilized for this purpose. Wire is used to secure the insulating layer to the vehicle’s body. It makes sense to use one of the following materials as thermal insulation:

Heat generator ready.

• glass wool;
• mineral wool;
• Basalt cotton wool.

The list makes it clear that practically any type of fibrous thermal insulation will work. High-quality insulation is recommended for Vortex induction heaters, reviews of which can be found all over the internet. If not, there’s a chance the appliance will overheat the space in which it’s placed. Understanding "insulation of pipelines with mineral wool" is helpful.

Reviews claim that certain homemade long-burning furnaces can operate for eight hours on a single fuel load.

Read about the characteristics of wood-burning wooden stoves.

There should be some advice at the conclusion. First, painting the product’s surface is advised. This will shield him from rust. The second is that it would be desirable to manufacture every component inside the device. By taking this approach, they will be more resistant to wear and the harsh environment. Thirdly, it’s worthwhile to make multiple extra covers. Additionally, the necessary diameter holes must be placed in the appropriate locations on the plane. This is required in order to increase selection’s efficiency.

WHOSTAR GAZHER

Indeed, we will create the bassor of the whirlwind, a device with such an enigmatic moniker. It will be situated inside both rings, along the plates.

See what we need to get to work.

• Welding.
• Turbine.
• Steel sheet.
• Pipe with thick walls.

The pipe and the heat generator ought to be of the same size. From it, we fashion two roughly 5-cm-long rings. From the sheet, we cut out multiple strips of the same size. Their width should be such that there is empty space inside after assembly, and their length should be one-fourth the length of the device case.

1. We insert the plate into the vise, hang on one end its metal rings and weld them with the plate.
2. We take out the plate from the clamp and rotate with the other side. We take the second plate and place it in the rings so that both plates are placed in parallel. Similarly, fix all the remaining plates.
3. We collect a vortex generator with our own hands, and install the resulting design opposite the nozzle.

Keep in mind that there is virtually no end to how the device can be improved. For instance, we could use steel wire that has first been twisted into the shape of a ball in place of the plates mentioned above. We can also create holes on different sized plates. Naturally, none of this is mentioned anywhere, but who said you couldn’t use the data on improvements?

And finally, a few useful suggestions. First and foremost, staining all surfaces is a good idea. Second, since the interior details will be exposed to a hostile environment on a regular basis, they should all be made of thick materials. Thirdly, maintain multiple extra lids in various sizes. In the future, you will select the required diameter to maximize the device’s productivity.

We do it with our own hands

Before proceeding to direct manufacture, we consider the general description of the heat production process in order to get acquainted with the main constructive elements. So, the pressure pump under a pressure of 5 to 6 atmospheres supplies flooded water to the collector. A whirlwind is created there, which smoothly moves into a vortex pipe, the length of which is exactly 10 times more than its diameter. The vortex is actively moving along the spiral pipe, and at this time the bubbles collapse and heat the water that enters the rectifier of the water flow. This part is a number of metal plates, passing through which the flow of water loses part of the energy, becoming more controlled. Further, hot water enters the radiators, making a circle, after which it returns back to the generator for subsequent heating.

Preparation of the necessary inventory

For work with us It will be necessary to:

• Vacuum or contactless pump – it is better to buy a ready -made model;
• Cavitator – is a pipe that is tightly adjacent to the pump itself;
• The pipe is connected to the pump, necessary for the supply of water;
• water rectifier – reduces the speed of water particles at the output (provides a reduction in temperature and does not allow overheating of the entire device);
• Protective valve – regulates the process of water flow, avoiding its output and cavitation in the pump itself.

Recognize the specifics The following gadgets will be beneficial:

• bolts and nuts;
• welding machine or cold welding;
• keys;
• Drill and suitable metal drill.

Every component and its requirement will be taken into account up front during installation.

We collect the unit by point

We start working, accomplishing the following for convenience:

1. We make the case. We take an iron pipe with thick walls (about 50 cm) and make a thread of 2 cm. From a sheet of metal of identical thickness, cut circles, as a diameter like a pipe (2 pcs). On each lid we make two holes in the center: for a pipe and a living room. We weld the covers to the ends of the pipe, after which we connect the pipe in the output hole of the pump, from where the water is pumped out. The second pipe is connected to the radiator or pipes leading to the heating system.
2. We install metal plates (water rectifier) near the output (bottom). They need to be welded.
3. Connect the pump. It is important not to confuse the place of contact of the pipe. If you connect it incorrectly, the reverse traction is created in which all the water available in the system will go out through the pump out.
4. We include the pump into the network and fill the water into the generator, controlling the entire process.

The pump—or more accurately, its engine—is the most costly. You can put it together by hand, but that doesn’t mean the power generated will be sufficient to propel the liquid at the required speed. A homemade pump might not be able to provide the cavitation process, which is essential to the heating system’s function.

Calculation formula

The virial theorem, which is predicated on such a scheme, directly influences the calculation of the heating system:

Kinetic energies minus potential energy

The final indicator shows the Sun’s kinetic movement, which is determined by the following formula:

Theoretically, this formula functions. Using a thermal vortex generator is not profitable in practice due to several deviations.

Assembly and installation

The above description covers the procedure for assembling each structural component. Three primary indicators should be included in the installation:

1. The generator should be removed as much as possible from the place of sleep and rest.
2. Control over the level of water in the system, which may decrease over time, is required.
3. Before connecting the generator to the heating system, you need to check it for performance.

Special instance resolutions are not needed for installation, and the generator itself has a higher level of security.

Potapov heat generator for water

Water heat generators come in various models, and they vary from one another in the following ways:

• Weight: 7.5, 10, 15, 25 kg;
• Power: 2.7, 5.5, 11, 45, 65 kW;
• Water consumption: 12, 25, 50, 100, 150;
• Pressure: 5 or 6 atmospheres.

These indicators determine the markings on the water generator: 1 m, 2 m, 3 m, 4 m, and 5 m. The last three are only utilized in industrialism, when it’s necessary to warm up big spaces.

A vortex heat generator video

The principle of operation of the heat generator Potapov

Diagram of a heat gun device.

You should examine each step of the fluid heating process to gain a thorough understanding of all the nuances involved in the operation of a device such as a heat generator.

The pump in the heat generator system generates pressure between 4 and 6 atm. Water with pressure enters the injecting pipe attached to the centrifugal pump’s flange under the pressure that is created. Like a snail in a wound pipe, the fluid flow enters the snail’s cavity very quickly. Similar to the air experience, the liquid quickly rotates through the curved channel to produce the cavitation effect.

The water has already reached the same state and is moving quickly through the vortex pipe, which is the next component that houses the heat generator and receives the liquid. Potapov’s discoveries indicate that the vortex pipe’s length is significantly longer. The liquid is directed toward the opposite edge of the vortex pipe, which is already heated.

To achieve the necessary point, it goes through its path along the screw -shaped twisted spiral. Sanding spiral is located near the walls of the vortex pipe. After a moment, the liquid reaches its destination – a hot point of a vortex pipe. This action ends the movement of the liquid along the main body of the device. Followed constructively, the main brake device is provided. This device is designed for a partial withdrawal of hot fluid from the state it acquired, that is, the stream is slightly aligned due to the radial plates fixed on the sleeve. The sleeve has an internal empty cavity, which is connected to a small brake device following the cyclone in the structure of the heat generator structure.

The schematic showing how the heat generator is connected to the heating system.

Hot liquid advances along the brake device’s walls in the direction of the exit. Meanwhile, a vortex flow of a resettled cold liquid moves in the direction of the hot liquid stream along the inner cavity of the main brake device’s sleeve.

The cold liquid is heated by the brief moment of contact between the two streams through the sleeve’s walls. And through the little brake device, the warm stream is already being directed toward the exit. Due to the cavitation phenomenon, the warm flow undergoes additional heating as it passes through the brake device. The liquid that has been thoroughly heated is prepared to exit the small brake device and pass through the main removal pipe that joins the two ends of the main chain of the thermal device’s elements.

Although it goes the other way, hot coolant also ends up at the output. Remember that the bottom is joined to the upper portion of the braking device by a hole in the middle that is the same diameter as the vortex pipe.

A vortex pipe, in turn, is connected by a hole in the bottom. Therefore, hot liquid ends its movement along a vortex pipe with a passing into the bottom of the bottom. After a hot liquid enters the main diveting pipe, where it is mixed with a warm stream. On this, the movement of liquids according to the system of the heat generator Potapov is completed. The water enters the exit from the heater from the upper part of the outlet pipe is hot, and from the lower part it is warm, it is mixed in it, ready for use. Hot water can be used either in water supply for household needs, or as a coolant in the heating system. All stages of the work of the heat generator are held in the presence of ether.

Run the scenes

Andrei Butorin, the author of the trilogy, claims that Potapov’s installation is entirely the author’s idea and has no true counterparts or sources of inspiration. In order to give Nanas, the main character, the chance to independently figure out how to save Polar Dawn from barbarians and to establish Potapov’s installation as the sole means of winning the war, the author inserted it into the story.

The entire CAPP was introduced in an attempt by the city mayor to diversify the plot by demonstrating the conclusion of the good versus evil struggle not only between polarities and barbarians but also in the back of the polarizer. This was Potapov’s installation.

In contrast to Potapov’s installation fiction, its creator, Viktor Potapov, was disregarded by a real-life acquaintance of the author, who as of 2013 is employed by the Kola NPP.

When it comes to heating your home efficiently and effectively, choosing the right heating system is crucial. The worthy engine for heating not only ensures warmth during cold months but also contributes to energy savings and environmental sustainability. Whether you opt for a furnace, boiler, heat pump, or radiant heating system, it"s essential to consider factors like fuel efficiency, maintenance requirements, and compatibility with your home"s layout. By selecting a heating engine that aligns with your needs and priorities, you can enhance comfort while minimizing energy costs and reducing your carbon footprint. Making an informed decision about your home"s heating system is a key step towards creating a cozy and environmentally-friendly living space.

How to make a heat generator with your own hands

Vorthy heat generators are extremely intricate machines; however, in theory, one can construct an automatic VTG Potapova, whose design is appropriate for both domestic and commercial use.

Potapova vortex heat generator in picture

Thus, the 93% efficient mechanical heat generator Potapova, whose schematic is depicted in the figure, emerged. Though Potapov’s device is especially effective with home masters, Nikolai Petrakov was the first to receive the first one.

The vortex controller’s design is depicted in this diagram. A flange connects the mixing pipe 1 to the pressure pump, which provides a liquid at 4 to 6 atmospheres of pressure. A vortex is created in drawing 2 when water enters the collector and is directed toward a unique vortex pipe (3), whose length is ten times greater than its diameter. The water whirlwind travels to the hot pipe via the spiral pipe at the walls. This end terminates bottom 4, which has a dedicated hole for the hot water release in the middle.

To control the flow, in front of the bottom there is a special braking device, or a rectifier of the water flow 5, it is a few rows of plates that are welded to the sleeve in the center. The sleeve is disposed of a tube 3. At the moment when the water moves along the pipe to the rectifier along the walls, a gas stitch current forms in the axial section. Here the water moves towards the fitting 6, which is cut into the wall of the snail and the fluid supply pipe. Here the manufacturer installed another disc rectifier of flow 7 to control the flow of cold water. If heat comes out of the liquid, then it directs it along a special bypass 8 to a hot end 9, where the water is mixed with the heated with the mixer 5.

The liquid enters the radiators straight from the hot water pipe and then makes a "circle" to return to the coolant for further heating. The liquid is then heated by the source, and the pump completes the cycle.

Such a theory even suggests modifications to a heat generator for low pressure serial production. Sadly, projects are only useful on paper; very few people actually use them. This is especially true when you consider that calculations based on the Virial Theorem are required to account for the sun’s inconsistent energy as well as centrifugal power in the pipe.

The following is the formula:

Where the sun’s kinetic movement is expressed as Ekin = mv2/2;

The planet’s mass (m, kg).

The following technical features of a vortex-style household heat generator for Potapov’s water are possible:

Size	1M	2m	3M	4m	5m
The characteristics of the pipe of the vortex flow, mm (length/diameter)	54/600	76/800	105/1000	146/1200	180/1500
Weight, kg	7.5	10	15	28	50
Nominal pressure, atmosphere (home device may have a smaller indicator)	5	5	6	6	6
Water consumption,	12	25	50	100	150
power, kWt	2.7	5.5	eleven	45	65
Heat production, mcal/h	3.6	6.6	13.3	75.8	95.5

Image: Vortex heat generator modifications

Install the pump

Selecting the "correct" water pump is the next step. These days, there is such a large variety of these tools that you can find a model for yourself that is any strength or size.

There are only two things that require our attention:

• Whether the engine can promote this pump;
• Is he (pump) centrifugal.

The pump is then fitted into the same frame; extra fasteners are added if needed.

The case of a vortex generator is a closed cylinder on both sides. There should be through holes on the sides so that the heating system can be connected to the device. However, the centerpiece of the design is located inside the case: a nozzle is immediately located close to the entrance opening. The nozzle’s hole needs to be chosen exclusively on an individual basis.

Keep in mind that the jailing hole should be half as large as 1/4 of the cylinder’s overall diameter. A smaller hole will prevent the necessary amount of water from passing through it, which will cause the pump to overheat. Furthermore, cavitation will start to destroy the internal components.

In order to manufacture the case, the following tools are required:

1. An iron pipe with thick walls with a diameter of about 10 cm;
2. Couplings for connection;
3. Welding;
4. Several electrodes;
5. Turbine;
6. A pair of pipes in which carving is done;
7. Electric drill;
8. Drill;
9. Adjustable wrench.

Let’s go straight to the production procedure now.

1. To begin with, we cut a piece of pipe about 50-60 cm long and make an external groove on its surface about a floor of thickness, 2-2.5 cm. Cut the thread.
2. We take two more pieces of the same pipe, 5 cm long, and make a couple of rings from them.
3. Then we take a metal sheet with the same thickness as at the pipe, cut out of it peculiar lids, weld them where the thread was not made.
4. In the center of the covers we make two holes – one of them around the circumference of the pipe, the second – along the circumference of the nozzle. Inside the cover next to the nozzle, drill the chamfer so that the nozzle is obtained.
5. We connect the generator to the heating system. We connect the pipe near the nozzle to the pump, but only to the hole where water comes under pressure. The second pipe is connected to the entrance to the heating system, while the output must be connected to the entrance of the pump.

The water will be forced to pass through our structure’s nozzle by the pressure that the pump will produce. Water is heated through active mixing in a special chamber and then fed directly into the heating circuit. A vortex heat generator that you can manually adjust the temperature with should have a unique locking mechanism next to the pipe. The design will force the water over the chamber for a longer period of time if you cover the constipation somewhat, which will raise the temperature. So, this type of heater functions.

Regarding additional substitute heating techniques

A little story

Vortex heat generators are thought to be a creative and promising invention. However, the technology is not new; scientists have been considering applications for the cavitation phenomenon for nearly a century.

The phenomenon of the wound pipe, which divides the gaseous environment into hot and cold air, was first observed at the start of the 20th century and is still used in practical applications today.

Joseph Range, a French engineer, created and patented the "Vortimal Pipe," the first experimental installation still in use today, in 1934.

The difference in temperature between the air stream at the cyclone’s (air cleaner) entrance and output was initially observed by Rank. But in the early bench testing, the effectiveness of the vortex pipe’s ability to cool the air stream was measured rather than its ability to heat it.

The vortex pipe depicted in the diagram operates on a straightforward principle: the flow enters the twisting chamber, where it splits into two streams with distinct temperatures.

In the 1960s, Soviet scientists made a breakthrough in the technology when they devised a way to enhance the wound pipe by injecting liquid into it rather than air.

The fluid’s temperature changed more intensely when it passed through the vortex pipe because the liquid medium had a higher density than air. Thus, it was experimentally demonstrated that the liquid medium heated abnormally quickly with a 100% coefficient of energy transformation as it passed through the advanced pipe of the wound!

Regrettably, the technology was not put to use because there was no demand for inexpensive thermal energy sources at the time. It wasn’t until the middle of the 20th century that active cavitation plants with the intention of heating the liquid medium were created.

The image displays a working vortex generator that circulates water in a closed circuit.

Resuming work on efficient water jet energy converters in the heat was prompted by a string of energy crises and the ensuing interest in alternative energy sources. Because of this, you can now purchase the necessary power installation and use it with the majority of heating systems.

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Operating principle

The origins of the rotational vortex effect in the total absence of motion and magnetic fields are explained in a number of ways.

Diagram of a vortex heat generator in photo

Since the gas is moving quickly inside the device, it functions as a rotation body in this instance. This principle of work deviates from the widely recognized norm, which states that hot and cold air should be handled separately. According to the laws of physics, different pressures are formed when flows are combined, and in this case, this results in the movement of a vortex of gases.

You can use devices for both efficient cooling and heating because of centrifugal force, which causes the air temperature at the output to be significantly higher than it is at the input.

There is another theory of the principle of operation of the heat generator, due to the fact that both vortices rotate at the same angular velocity and direction, the inner vortex corner loses its corner moment. The reduction of the moment is transmitted to kinetic energy to the external vortex, as a result of which the detachment currents of hot and cold gas are formed. This principle of operation is a complete analogue of the Peltier effect, in which the device uses the electrical energy of pressure (voltage) to move heat to one side of the transition of heterogeneous metals, as a result of which the other side is cooled and the energy consumption is returned to the source.

Photo: the hydrotype generator’s working principle

The benefits of a heat-generating vortex:

• Provides significant (up to 200 º C) temperature difference between the "cold" and "hot" gas, it even works at low input pressure;
• It works with efficiency up to 92%, does not need forced cooling;
• Converts the entire stream at the entrance to one cooling. Due to which the probability of overheating of heating systems is practically excluded
• The energy produced in a vortex tube is used in a single stream, which contributes to the effective heating of natural gas with minimal heat losses;
• Provides the effective separation of the vortex temperature of the inlet gas at atmospheric pressure and the output gas at negative pressure.

Depending on the modification, this alternative heating method can heat a room up to 100 square meters for practically no cost. The primary drawbacks are its high cost and infrequent practical application.

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Advantages of heat generators when used for heating

The most obvious benefit of heat generators is that they require relatively little maintenance, even though they can be installed for free and don’t require special permission like electric networks do. Checking the device’s rubbing components, such as the seals and bearings, once every six months is sufficient. Simultaneously, as stated by the suppliers, the typical guaranteed service life is at least 15 years.

The potapova heat generator stands out for its total safety and non-harmful nature to both the environment and its users. The cavitation heat generator’s ability to exclude harmful product emissions from the processing of natural gas, solid fuel materials, and diesel fuel from the atmosphere justifies its environmental friendliness. To put it plainly, they are not utilized.

The mains supply the fuel for the work. Since there is no contact with an open fire, the possibility of a fire is eliminated. The device dashboard provides additional safety by giving complete control over all system temperature and pressure processes.

Economic efficiency when heating the room with heat generators is expressed in several advantages. Firstly, you do not need to take care of the quality of the water when it plays the role of the coolant. To think that it will harm the entire system only because of its poor quality, you will not have. Secondly, financial investments in the arrangement, laying and maintenance of heat tracks do not need to be done. Thirdly, the heating of water using physical laws and the use of cavitation and vortex flows completely eliminates the appearance of calcium stones on the internal walls of the installation. Fourth, expenses of funds for transportation, storage and purchase of previously necessary fuel materials (natural coal, solid fuel materials, oil products) are excluded.

The indisputable benefit of heat generators for residential use is their remarkable adaptability. Heat generators are used in a very broad range of everyday domestic situations:

• As a result of passage through the system, water is converted, structured, and pathogens in such conditions die;
• water from the heat generator can be watered with plants, which will contribute to their rapid growth;
• The heat generator is able to heat water to a temperature exceeding the boiling point;
• The heat generator can work in conjunction with already used systems or be built into a new heating system;
• The heat generator has long been used by people aware of it as the main element of the heating system in houses;
• The heat generator easily and without much cost prepares hot water to use it in economic needs;
• The heat generator can heat the liquids used for various purposes.

Refined oil can be refined using the heat generator, which is an entirely unanticipated benefit. The vortex installation’s ability to dilute heavy oil samples and perform preparatory steps prior to transportation to oil refineries is a result of its unique development. These procedures are all completed at a low cost.

It is important to recognize that heat generators are completely self-sufficient. In other words, you are able to control the level of effort involved. Furthermore, installing any of the Potapov heat generator’s designs is extremely easy. Service organization personnel are not required to participate; all installation tasks can be completed on their own.

Installation of Yusmar-M

In the installation of the "Yusmar-M" vortex heat generator complete with a submersible pump are placed in a common vessel-beuler with water (see. Figure 3) in order to ensure that heat loss from the walls of the heat generator, as well as the heat released during the operation of the pump electric motor, also went to heated water, and not lost. Automation periodically turns on and turns off the heat generator pump, maintaining the water temperature in the system (or air temperature in the heated room) within the limits set by the consumer. Outside, the heapor vessel is covered with a layer of thermal insulation, which simultaneously serves as sound insulation and makes the noise of the heat generator almost inaudible even directly next to the boiler.

The purpose of USMAR installations is to heat water for various domestic and industrial purposes, including showers, baths, kitchens, laundry rooms, and sinks. Additionally, the installations are meant to heat agricultural product dryers and viscous oil product pipelines so that they don’t freeze in the winter.

Figure 4. A picture of "Yusmar-M," a thermal installation.

Usmar-M installations are supplied to clients as a turnkey supplier, equipped with all the tools required for their task and powered by an industrial three-phase network operating at 380 V.

Each of these installations uses the same boiler vessel (see Figure 4), which is submerged in vortex pipes and motor pumps of varying powers, depending on which customer’s needs are met. The Board-beler’sdimensionsare 2000 mm in height and 650 mm in diameter. These attitudes have a certificate of compliance with ROSS RU. Mhoz. S00039 and technical conditions of TU in 24070270.001 -96. They are advised for use in both industry and daily life (for heating residential premises by supplying hot water in water heating battery).

Numerous businesses and private homes utilize Usmar installations, which have garnered hundreds of positive user reviews. Thousands of "Yusmar" heat installations are currently operating profitably in the CIS as well as several other European and Asian nations.

Their use is particularly advantageous in areas without gas pipelines and where people are compelled to use the increasingly expensive electricity for heating their homes and businesses.

Figure 5 shows how the water heating system and the "Yusmar-M" heating unit are connected: 1. "Yusmar" thermogenerator; 2. "Circular pump"; 3. "Pult of Management"; 4. "Termoregulator"

Compared to conventional electric heating methods, the "Yusmar" heat installations can save up to thirty percent of the electricity required for the heating of the premises and the heating of the water.

There are now two developed consumer connection schemes to the "Yusmar-M" heat station: through the heat exchanger (see Figure 6) if the consumer consumption varies over time, and straight to the boiler (see Figure 5) when the hot water consumption in the consumer system is not subject to abrupt changes (for example, for heating the building).

Because there are no components in the "Yusmar" heat installations that can heat up to 100 °C, these installations are particularly acceptable in terms of fire safety and safety precautions.

Figure 6 shows how the "Yusmar-M" thermal installation is connected to the shower. 1. "Yusmar" thermogenerator; 2. cycle pump; 3. control panel; 4. termeater; and 5. heat exchanger.

Used Books:

1. YU.WITH. Potapov, l.P. Fominsky, s.YU. Potapov-"Rotation Energy" -01.01.2008.

The story is edited

The invention of the installation, the first tests and the closure of the project to rule

Named after scientist Viktor Vasilyevich Potapov, who worked at the Kola NPP, the installation was created by him. People with extrasensory deposits were needed to test the installation; these individuals were few in number, but the residents were deemed qualified for the installation operator positions. The installation’s initial tests proved to be successful: by fortifying operators’ mental waves, a strong field encircling the CAPP prevented anyone from approaching it, and this influence was unbreakable.

As a result, the problem of defending the station from possible adversaries was settled, and the polar dawns took on responsibility for station security, bolstering the garrison, which centralized by roughly half. This did not sit well with Safonov’s mayor. He feared that the mayor’s authority would wane and become secondary to the station’s security, which would be commanded by the commander of the city of Yarchuk’s garrison.

To keep his position of authority in the city intact, Safonov chose to discredit Potapov’s installation. He coerced one of the installation operators into forcibly holding three other duty officers at the radiation source for multiple shifts using weapons by offering bribes and threats. The "saboteur" was eliminated during the hostage-release operation, and the "hostages" perished from radiation exposure. Such a conclusion to the events led to Safonov terminating the project and compelling Yarchuk to hand over the standard garrison back to the Kola NPP.

The siege of the city by barbarians to rule

In the winter of 2033, during the siege of the polar dawn by the barbarians, the main character of Roman Nanas, listening to the conversation of the guards, learns about a certain Potapov, whom some fighters consider to be charlatan, others – a genius. When the guards diverge, Nanas asks about the Smurnov hostel heard from the commandant of the hostel. Smurnov, in response, suspect Nanas of espionage on barbarians and sends him to sleep, without clarifying anything. Later, Nanas, talking in the rear of the barbarians with the son of mayor Ignat Safonov, who was captured by them, learns detailed information about the installation of Potapov and the circumstances of the closure of this project on the mayor"s whim. Ignat also says that the installation is not dismantled and, perhaps, will be able to earn now. However, probably former installation operators have already died.

Later, when Nanas is found in the forest with Seyd, mountains, and intelligent dogs at the behest of the mayor and is labeled a traitor in the Polar Dawn, he unintentionally discovers that these dogs could take the place of Potapov’s installation operators and aid in defending the Kola NPP from the barbarians due to their telepathic abilities.

Nanasa manages to return to the polar dawn, “wash” before the command and persuade Yarchuk to realize his plan to life. Safonov, accused of lies and learning that his dark cases related to the installation of Potapov are known, secretly from the rest of the command take five kilograms of TNT and hurry to the Kola NPP, to the installation of Potapov to blow up it. Safonov does not suspect and does not believe that during the explosion of Potapov’s installation, the reactor cooling system will stop working and the station will explode, as it happened to the Chernobyl nuclear power plant at one time. Nanas, Nadia and fighters, led by Yarchuk, head along the tunnel to the station, where they learn from Seid about the plan of Safonov. The mayor does not have time to blow up the installation: Yarchuk kills him.

After Yarchuk gives reasonable dogs instructions on how to use the device, the dogs stay at the station while the other main characters depart. Dogs initially consider neutral topics, and then, at a predetermined moment, they start sending mental waves. This works well because the main characters who leave the station nonetheless experience terror, which forces them to all leave as soon as possible. Testers overlook the fact that many staff members and security are still at the station in the midst of the chaos. Nonetheless, the station’s personnel is secure because of the characteristics of the installation’s mental field.

Success motivates the heroes. Kirkin suggests luring the barbarians nearer the station to demoralize them and make it easier to defeat them later. Dogs are willing to labor for roughly three days. The plan is carried out with the uninvited help of the traitor, who relays information that the polar growers want the CAPP to be completely unsecure. Barbarians rush back toward the station after approaching it and entering the mental field, only to find the entire city waiting for them. The majority of the barbarians are destroyed in the most recent battle, and the Horde’s remnants split up into smaller groups.

Features of the use of Potapov heat generator for heating premises

As you are aware, there are several domestic uses for the heated water found in Potapov’s thermogenerator. It can be very convenient and profitable to use a heat generator as a constructive unit of the heating system. No other device can be compared to save if you proceed with the installation based on the indicated economic parameters.

Therefore, the following sequence is given when utilizing the Potapov heat generator to heat the coolant and introduce it into the system: the liquid from the primary circuit that has already been worked out and is at a lower temperature enters the centrifugal pump. Warm water is then sent straight to the heating system via the pipe by the centrifugal pump.

Production technology and the necessary tool

Heat generator ready.

The manufacturing process of a device varies based on its type. Before starting work, it is a good idea to become familiar with each type of device and learn about its features. Using pre-made components is an easy way to create a vortex pipe to the wound with your hands. Any engine will do for this. In this instance, the device with more power can heat the coolant more, increasing the system’s productivity.

There should be ready-made solutions available for a successful structure. With your own hands, build a vortex heat generator using the plans and drawings that will be readily available to you. The construction project will require the following tools to be completed:

• Bulgarian;
• iron corners;
• welding;
• drill and a set of several drills;
• accessories and a set of keys;
• primer, coloring substance and brushes.

One alternative energy source for heating a home is a vortex engine.

It should be acknowledged that rotating devices produce a noticeable amount of noise when they operate. However, they have higher performance when compared to other devices. You can find DIY grade materials everywhere for making a vortex heat generator. It is important to note that the work will only be successfully finished when all production technology is followed.

Physical phenomena on the basis of which the heat generator acts

Schematic of a vortex heat system device.

Overall, there is nothing particularly intricate or out of the ordinary about the Potapov heat generator’s mode of operation.

The principle of operation of this invention is based on the process of cavitation, from here it is also called a vortex heat generator. Cavitation is based on the formation of air bubbles in the water column caused by the power of the vortex energy of the water flow. The formation of bubbles is always accompanied by a specific sound and the formation of a certain energy as a result of their blows at high speed. Bubbles are cavities in water, filled with vapor from the water, in which they themselves formed. The liquid exerts constant pressure on the bubble, respectively, it seeks to move from the area of high pressure to the low area in order to survive. As a result, he does not withstand the pressure and contracts sharply or “bursts”, while splashing the energy forming the wave.

The force of the highlighted "explosive" energy of many bubbles is strong enough to demolish impressive metal structures. When heated, this kind of energy acts as an additional. A fully closed circuit is supplied for a heat generator, in which microscopic bubbles form and burst in the water column. They offer an 80% increase in thermal energy but lack the same destructive force. The circuit maintains the integrity of the electrons, which are crucial to the process, while supplying an alternating current up to 220V.

As was previously mentioned, the creation of a "water vortex" is essential to the thermal installation’s functionality. The pump that is part of the thermal installation is in charge of this; it creates the required pressure and firmly directs it into the working capacity. Certain mechanical energy changes in the liquid’s thickness take place in water during twisting. Thus, the same temperature regime is started to be established. According to Einstein, more energy is produced during the conversion of a specific mass into the required heat; cold nuclear synthesis is present throughout the entire process.

The scope of application

Illustration	Description of the scope of application
	Heating. Equipment converting the mechanical energy of water movement into heat is successfully used for heating various buildings, starting with small private buildings and ending with large industrial facilities.

By the way, there are currently at least ten settlements in Russia that use gravitational generators rather than conventional boiler rooms to provide centralized heating.

Integration into the heating system of a private house

The heat generator needs to be inserted into the heating system in order to be used. How can I do it correctly? This is not complicated at all, in fact.

Apart from the inclusion of a pump, installing a vortex heat generator in a country home or apartment’s heating system doesn’t differ significantly from installing a traditional boiler.

The centrifugal pump (shown in figure – 1) is positioned in front of the generator (shown by the number 2) and will supply water under pressure of up to six atmospheres. Following the generator, a locking reinforcement and expansion tank are installed (see figure 6).

Advantages of the use of cavitation heat generators

The advantages of a vortex source of alternative energy
	Economy. Thanks to the effective consumption of electricity and high efficiency, the heat generator is more economical in comparison with other types of heating equipment.
	Small dimensions in comparison with conventional similar power heating equipment. A stationary generator suitable for heating a small house is twice as compact than a modern gas boiler.

There will be a lot of extra room if you install a heat generator in an ordinary boiler room as opposed to one with a solid fuel boiler.

There aren’t many mechanically movable parts on the device, and complicated electronics are ideally absent. As a result, the device has a much lower chance of malfunctioning than gas or even solid fuel boilers.

The absence of obstructions and clicks on the walls is caused by particular procedures in the generator’s operating chamber.

The device’s instruction manual is straightforward: simply turn the engine on to the network and, if needed, turn it off.

Engine Type	Pros
Gas Furnace	Efficient and cost-effective heating option.
Heat Pump	Provides both heating and cooling, energy-efficient.

Selecting the ideal heating system for your house is essential for cost-effectiveness, comfort, and efficiency. Choosing a worthy heating engine is one of the most important decisions in this process. Your decision will affect not just your comfort level right away but also your long-term energy costs and environmental impact.

Many considerations need to be made when deciding which heating engine is best for your house. First and foremost, you must evaluate your heating requirements in light of your home’s size, the climate where you live, and the thickness of your insulation. You can choose the right size and kind of heating engine to effectively heat your space by being aware of these factors.

It’s also critical to take into account the costs and environmental effects of the fuel sources that are available in your area. Every energy source, including electricity, propane, natural gas, and renewables like solar and geothermal, has pros and cons of its own. You can choose the best heating engine for your house by taking these aspects into consideration along with your heating requirements.

Additionally, consider the lifespan and maintenance needs of various heating engines. Certain systems might need to be maintained more frequently or have shorter lifespans, which could have an impact on your overall expenses and convenience. Over time, you can save money and feel more at ease knowing that your system is long-lasting if you make an investment in a dependable and sturdy heating engine.

The choice of heating engine should ultimately be made after carefully weighing your priorities and unique set of circumstances. You can choose a heating engine that not only keeps your home warm and cozy but also fits within your budget and values by taking into account variables like heating needs, fuel sources, maintenance requirements, and longevity.

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