DE2843399A1 - Heating system using natural power source - has high pressure pump delivering frictional heat from water circulating through immersed coil - Google Patents

Abstract

The method of obtaining heat for e.g. room heating can use a natural source of power to drive a wheel to operate a high pressure pump. This forces water through a closed circuit so that heat is produced by friction. A valve may be used for throttling the water, and another valve for increasing the pressure. The friction heat generated heats up water in a tank in which the coil forming the closed circuit is immersed. This is pumped around a circuit to heat up radiators for the room heating. A system can be designed to produce steam instead of hot water. The pump may be of rotary, piston, geared or membrane type, and the material can be cast metal, heat resistant plastics or steel. Other power sources are wind, water or solar power, and heat from a range of types of engines and heaters can also be used.

Description

Designation: Mechanical equivalent tube.

The invention relates to work in usable heat for the household and industry and, as frictional heat, is the opposite of the previous ones Process of converting heat of combustion into work A mechanically done job no matter what kind, a pump or high pressure pump constantly moves a liquid in a closed circuit (which consists of a single tube of the tube bundle) constantly in a circle and generates frictional heat according to the energy rate mkg / sec. The temperature on the single tube or tube bundle can be increased to 500 ° C and Can be used for heating purposes such as residential houses, district heating and heating of steam boilers be exploited0 With this invention, wind, water, mountain and motor power can be used can be converted directly into usable heat0 This heat generation is the heat of combustion equivalent, but more economical and more environmentally friendly 4 Especially with internal combustion engines the heat of combustion and also the frictional heat for industry and household made usable.

The previously known methods of frictional heat are blade = wheel container von Joul 1843 and the power-driven brake disc heat according to patent no.38 02 11 from 4. 9. 1923, class 36 e, group 6/18 known. The latter is with rotating Brake discs intended for open circuit for domestic hot water production at 0 temperatures up to 100 0 are not possible with this device.

The subject of the invention is the liquid in one closed Put the circuit under pressure so that the water is above 100 ° C heated can be and the single tube or tube bundle reaches temperatures above 100 0C so that water can be heated and evaporated, to operate heaters such as Residential house, district heating or to operate steam boilers.

With this arrangement, wind, water and solar power can be generated directly converted into heat for heating purposes, O WHERE these forces are not available Can stand, fuel engines such as diesel - heating oil -, gasoline, gas, or wood gas Coals = dust engines are used as the driving force9 with the heat of combustion In addition, the invention has the advantage that it is an incinerator replaces and where wind, water and solar power is used, expensive fuels can be saved and with the use of internal combustion engines there is better burnout of fuel and the choice of fuels is greater in emergency areas or field camps, the system is easy to set up and can use simple fuels 0 drawing no. 1, shows in the diagram how a hydropower directly is converted into frictional heat. Water A falls on waterwheel B, you the one that created it Transmits power to the high pressure pump 1. Drawing Kr. 2 shows in section how the High pressure = pump 1 with the single tube or tube bundle to form a closed circuit 2 is connected. The Hochdraokpuspc 1 moves the liquid 3 in the very strong narrow pipe circuit 2 and generates frictional heat mkg / s. The pressure valve 4 is for Pressure boosting and venting and throttle valve 5, which regulates the mass should be circulated. The heated individual tube or tube bundle 2 gives its friction heat of water 7 in the container 6, which leads over the course 8 to the consumer or radiator 9 . the cooled water, comes back via the return 10 and is again with If the loaded drawing no. 3, shows a steam generation 7a in the container 6 water 7 covers tube bundle 2 which is heated to over 100 CO and the water evaporates Ta 0 The steam 7a generates pressure and can drive a turbine. For the steam stronger To be heated, a second tube bundle 2 can be installed in the steam chamber 7a0 Drawing no. 4, shows a fuel engine a 9 of the tone gasoline, diesel, heating oil , Wood gas or coal dust engine is operated. The heat of combustion D distributed focus on output E and Cooling Z0 The heat of combustion r, is Via E and F lines in container 6 to give off heat to water 7 o The through The expansion force gained is transmitted to the high pressure pump 1 and drives it the liquid 3 in the tube bundle 2 and generates frictional heat that is transferred to the water 7 In the container 6 is given for recycling to the consumer 9. The double effect Combustion and frictional heat save 50% fuel0 Drawing no 5 shows a portable device connected to small machines or driving forces and how an immersion heater can be used, such as domestic water heating with the wind power over the roof of a house or with the water power of a small one Baches am home The liquid is mixed with antifreeze to make a freezing in winter is prevented 0The liquid 3 can be made of liquid metal consist of a serious liquid whose melting point is far below 0 ° C.

The boiling pressure pump 1 can be used as a centrifugal, piston, gear or diaphragm pump and can be made of metal, cast or heat-resistant plastic0 The single tube or tube bundle 2 can also be used as a heating plate with continuous channels , which pull themselves in a spiral through the plate and the material can be metal, cast, steel or made of heat-resistant plastic as shown in the drawing No. 6 showed In non-pressurized systems and below 100 0 operating temperature the can Pressure intensifiers can be replaced by a glass tube or plastic hose as shown in the drawing 6 No. 4 showed The frictional heat, which is dependent on the forces of nature, can also be stored in water tanks or in storage stones. Big rivers with high flow velocities are the most reliable sources of power for district heating and for steam boilers0

Claims (1)

Claims. Claim 1. Characterized in that the generation of frictional heat in narrow individual tubes 2, tube bundles 2 or plates made of steel, cast iron, or heat-resistant Plastic with a threaded pipe channel 2 takes place as shown in drawings 1 to 6. To the tubes 29, a pressure booster 4 is arranged so that when Connection to the high pressure pump 1, a closed circuit under pressure is created, because the liquid 3, in pump I, and pipe 2, is compressed and the pump 1, which is operated mechanically9 constantly moves the liquid 39and in a circle generates frictional heat above 100 ° C, which is heated in the kettle 6, the water 7 and evaporates 7a, as shown in drawings 1, 2, 3, 4, uO 5. Claim 20 characterized in that according to claim 1 9 the pipes 2 used for the closed circuit, roughened on the inner surface and the connection ends are provided with a thread or a screw connection and welded into kettle 69 pressure and watertight and the whole thing is equipped with a mechanical heater as in the drawings 1, 2, 3, 49 u, 5 showing claim 3, characterized in that according to claims 1 u0 2 the high pressure pump 1 s as a centrifugal, piston, gear or diaphragm pump can be designed and the material made of cast iron, steel, cast metal or heat-resistant Plastic can consist of claim 4. Characterized in that according to the Claims 1 to 3, as a mechanical driving force according to drawing NrO1 Wind, water and solar power, as well as engine power such as diesel according to drawing No. 49, Petrol, gas, diesel fuel oil, wood gas or pulverized coal engines can be used and the heat of combustion of the engine along with the frictional heat of the tube bundles 2, in the kettle 6, cooling water @, and hot exhaust gases E, used for heating purposes are shown as drawing 4. Claim 5. Characterized in that according to the patent = pump 1 claim 1, and tube bundle 2 or tube plate 2, as a mechanical immersion heater is equipped according to drawing 5 and 6, Claim 6. Thereby marked. that as fluid 3 in the circuit, oil, water, specifically heavy Liquids or liquid metal with a boiling point below zero ° C are used so that the mechanical heating is adapted to the individual purposes 0 patent claim 70 characterized in that the pressure booster 4 at high operating pressure to a screw cylinder with automatic or manual control is equipped as shown in drawing no. 2 and with low pressure as at Drawing he. 6 the pressure is exerted by a water column 4a. Claim No 80 characterized in that the mechanical heating controlled and monitored according to patent claims ibis 6 with thermostats and pressure gauges claim 90 is characterized by the fact that according to the patent claims 1 up to 8 at operating temperatures up to 80 ° 0 u0 1000C, the entire system made of heat-resistant Plastic can consist of claim 10. Characterized in that according to the Claims claim 1 uO 2, between pump 1 and tube bundle or tube plate 2 a throttle slide 5 is installed9 so that the flow rate is reduced and increased can be as shown in drawings 1 to 5