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Types And Modifications

Tsekov Motor types and modifications


1. Heat Tzekov Motor
It utilizes waste heat from the cooling industrial processes with different state of matter of the heat source that heats up the heat exchanger-evaporator in which the work body is located.
a) hot water and other liquid ingredients and products whose temperature is above 2°С
b) fume gases
c) water steam, solid ingredients and compounds.
It is applicable for transforming the heat discharged in the environment, such as nuclear power plants, thermal power plants, the chemical, metallurgic, cement, oil extraction, food and other types of industries as the resulting mechanical and electrical energy is returned in the technological cycle thus improving the energy efficiency and competitiveness.

 


2. Fire Tzekov Motor
It utilizes burnable heat sources such as domestic, biological, wooden, plant and other waste as well as fossil burnable sources such as coals, oil, natural gas and others.
The engine transforms up to 80 % of the heat energy depending on the construction and allows the mobile and stationary utilization pattern.
In the case of burning domestic and other industrial waste the harmful ingredients and fume gases are rendered harmless (deactivated) with СаО (burnt lime), just like it is in the USA, Europe and other countries all around the world.

 


3. Solar Tzekov Motor
It utilizes solar energy after transforming it into heat energy and thanks to the engine it generates mechanical and electrical energy.
a) The sunrays directly heat the heat exchanger-evaporator inside which the work body is located.
b) The solar energy heats up the water in water basins of small depth whose surface is provided with thermal insulation via polymer and transparent materials; subsequently the heated water in its capacity of heat carrier heats up the work body of the engine in the heat exchanger-evaporator.
c) The solar energy heats up the water located in polymer transparent sleeves of small depth and thermal insulation. The heat energy that is accumulated inside the water heats up the work body in the heat exchanger-evaporator.
d) The evaporator is directly heated up by the sunrays.
   Per one square meter we get solar energy whose approximate power is 1,2 KW. Per one hour in a water layer of 1 cm the water heats up to 98 degrees accumulating 1KW  hour of heat energy per 1 m2. For 10 hours in a water layer whose depth is 10 cm per 1 square meter 10KW/h are accumulated. Per one decare (1000 m2) whose dimensions are 33 m х 33 m in 1 hour we will get 1 MW/h accumulated comparable energy.
The intensity of solar radiation per 1 square meter in Germany is 1 KW, in Bulgaria it is 1,2 KW, and along the Equator it is 1,5 KW.
For 10 hours of solar radiation from 1 decare in a water layer whose depth is 10 cm, the accumulated comparable energy is 10 MW/h with which the engine could continue to operate after sunset.

 


4. Air Tzekov Motor

– in the capacity of heat source the used heat is the one contained in the air, such as air-conditioning.

 


5. Transport Tzekov Motor
This modification could be performed with Fire, Solar and Air Tsekov Motor.
a) The Transport Tzekov Motor utilizes various types of burnable sources.
b) The Transport Solar Tzekov Motor utilizes the solar energy in the capacity of heat source via directly heating up the heat exchanger-evaporator or via the utilization of hot water. In 100 litres of water that is heated up to 98 degrees, 10KW hours of comparable energy are contained.
c) Per one cubit meter of water heated up to 98 degrees, 100 KW hours of comparable energy are accumulated that up to 40 % could be transformed in mechanical or electrical energy.
d) Thus the transport solar engine could operate with hot water that is heated by the sun and achieves direct application of the generated mechanical energy.
e) Thanks to the transformation of the mechanical into electrical energy and driving the vehicle by electrical engine.
f) Combined transport Tzekov Motor that operates with various heat sources.

 


6. Thermal Tzekov Motor
It transforms the geothermal heat into mechanical and electrical energy.
a) It utilizes the heat of the geothermal sources.
b) The Thermal Tzekov Motor could operate with groundwater or spring water.
c) It utilizes the thermal heat emitted by the earth nucleus contained in the crust. At a depth of 3 meters the temperature is 12 degrees and at each 10 meters the temperature increases with 1 degree.
Example: In the bowels of the earth, the galleries in operating or abandoned mine at a depth of 400 meters have temperature of around 40 degrees Celsius, and thanks to Tzekov Motor this heat could be transformed into mechanical and electrical energy.

 


7. Mechanical engine
With the application of the Heat, Solar or Fire Tzekov Motor the received mechanical energy is directly utilized for operations thanks to the reciprocating or rotary movement in various industrial areas, such as pumping, pumping up, drilling, grinding, cutting etc.

 


8. Pump Tzekov Motor
With the application of the Mechanical, Solar, Heat or Fire Tzekov Motor, the generated mechanical energy directly drives plunger, piston or centrifugal pumps for pumping up drinking groundwater for domestic needs and irrigation of crops or for irrigation systems from rivers, lakes, dams, thanks to the solar and other energy. The water could be pumped up at a height of hundreds of meters.

 


9. Agricultural Tzekov Motor
With the application of Solar, Fire or Air Tzekov Motor, thanks to this modification the agricultural worker will be working with self-propelled machine-chassis driven by Tzekov Motor, allowing him to earth up, plough, sow, plant, weed out, harvest, pick up and use the ready produce of fruit and vegetables until the end of the cornfield.


10. Accumulating Tzekov Motor
The utilization of Pump Tzekov Motor  pumps up water in the case of solar radiation in water basins at high altitude, and during the peak hours it will drive water power plant that produces environmentally friendly electrical energy from the solar energy that is transformed into water-pressure column.

 


11. Turbine Tzekov Motor
The pump cylinders of the Pump Tsekov Motor are connected with a bypass connection and reverse valves, with a hydromotor or a turbine. The movement of the oil or water liquid from one pump cylinder into the other generates single directional rotary movement that drives the electric generator or other executive devices. The Turbine Tzekov Motor operates with turnover oil liquid or water in a closed system with turbine and hydromotor.

 


12. Combined Tzekov Motor with mini water power plant
The utilization of the Solar or environmentally–friendly Fire Tzekov Motor burns the domestic, biological, wooden, plan and industrial waste for generating mechanical energy that drives the turbine with the generator of the mini water power plant.

 


13. Domestic Tzekov Motor
The abovementioned types of Tzekov Motor could be implemented for domestic needs since they operate with lower powers and have versatile application.

 


14. Standby air-conditioning with minimum or without the consumption of electrical energy.

 


15. Tzekov Motor generates electrical energy with which thanks to the electrical strength heaters it heats up the housing, the work premise, hotel or heats up the operational technological process.

 


16. Thanks to the transformer the generated electrical energy is transformed in quality one and is connected to the National Electrical Company (NEK);

 

 


17. Mini perpetuum mobile vehicle – If we accept that the heat energy contained in air and water at a low temperature from 5°С to 20°С degrees is nothing, then Tzekov Motor produces energy out of nothing.