Clitron

Clean Electric, Supersynchronous Power Station

Self-Sufficient Power Plant (SSPP) System

Clitron power plant 

Mitrapol Company(MTPol), in line with the goals of sustainable development and the realization of green and sustainable energy based on environmental standards, in accordance with the sustainable development goals of the United Nations UNSDG 2030 and the basic action towards the seventh goal of SDGs entitled Affordable and Clean Energy, to produce Clean Power based on Sustanable energy has invented the best clean power generator technology or green power with the Clitron brand.

Clean power plant Super-synchronous generator with Clitron brand is one of the excellent technologies for providing energy needed for the sustainable development of small-scale communities, industrial organizations and the establishment of clean energy power plants.

The urgent need for energy in today's civilization and future ages, especially electric energy and the lack and reduction of resources, as well as the environmental pollution of fossil fuels and the dangers of nuclear power plants both in terms of the production of nuclear waste and incidents such as the explosion of nuclear power plants in The effect of events such as earthquakes or war, as well as the lack of sufficient response power in renewable energies such as solar energy and wind and water turbines or wave turbines and even energy from biogas, require efforts to achieve clean energy to meet all needs.

Many efforts have been made in developed countries to invent a suitable alternative to supply the ever-increasing urban and industrial energy needs, which have often failed and sometimes have reached results that either did not reach public consumption due to its strategic nature for producers or They have not responded in the direction of public and industrial use.

Mitrapol Company has also focused on this project in pursuit of its mission to achieve the goals of sustainable development with the perspective of a sustainable civilization and has achieved acceptable results that can be used as a suitable and reliable alternative to achieve the high goals of sustainable development. And due to the importance of human life and respect for the global goals of sustainable development, the strategic aspects of this technology for Mitrapol MTPol company are to popularize this technology and make an effective effort to achieve the 17 goals of sustainable development of the United Nations UNSDG 2030.

An example of the industrial consumption module of the Clitron generator Galan.AT-20 SD model

The Clitron generator is a device that is designed and manufactured in various models and with different voltage sizes for various urban and domestic, industrial and vehicular uses and on a large scale for the establishment of generating power plants with higher capacities to be a powerful answer to the needs of contemporary civilization.

Clytron's strategic superiority:

Using Clitron Super-synchronous generators, units or suites and power plant units of different sizes and capacities can be established and distribute energy in the network. The power plant system consisting of Clitron units has a strategic advantage over conventional power plants.

1. Distribution of Klitron power plant suites in each region to reduce distribution costs in the network and effectively reduce loss and voltage drop and increase consumption efficiency.

2. Production productivity with very high efficiency with a scale of 80%.

3. Absence of the costs of providing fuel raw materials and productive stimuli.

4. Easy transportation of Clitron power plant units and modules.

5. Much easier and less expensive to maintain than conventional power plants.

6. Very high economic justification with an investment return rate of less than two years.

7. Profitability and creation of one hundred percent added value in the annual financial balance.

8. The ease and accessibility of supplying equipment and parts for power plant units.

9. Allocation of very little land, about one and a half square meters for each megawatt.

10. The ability to install power plant units in most difficult geographical conditions.

11. Ability to create power plants in remote areas to cover population centers.

12. Ability to create independent power plants for towns and industrial centers.

13. No need for expensive special equipment, as well as easy supply of parts.

14. High installation speed with less manpower.

15. High useful life of productive equipment and parts.

16. No need to disconnect the power plant from the network during repairs and overhaul.

17. The ability to install and operate in different climatic conditions and outside the atmosphere.

18. Ability to install on road, rail, sea, air, space vehicles.

19. The ability to change the location of the power plant and move to another place very quickly and cheaply.

20. Lack of emission of any atmospheric pollutants and toxic and industrial waste.

21. Ability to recycle and reuse all materials and equipment used in the power plant.

22. Providing resilience and passive defense for energy production bases in the region from natural and human damage and foreign invasions.

23. Security of Clitron energy bases against cyber and sabotage attacks.

24. The possibility of creating production lines for the production of parts and equipment inside the country.

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Economic justification plan

Generating mechanism: asynchronous induction coupling interaction
Type of technology: Self-sufficient self-propelled supersynchronous
Primary driver: Symmetrical electric capacitor
Consumable resources: no need for any kind of external stimulus, including fossil, organic, natural, nuclear
Output power: 1 MW per generator unit and 50 MW per phase
Construction cost: $350,000 per 1 MW unit
Maintenance cost: $96,000 annually per 50 MW module (0.0055%)
Productivity efficiency: 85 to 90% optimally; 75 to 85 percent under normal conditions
Service fee: $500k per year per phase as anticipated (0.0285%)
Site area: 250 square meters for each 50 MW module + 400 square meters of logistics
Facilities: isolated building of 250 square meters with a height of 7 meters with a rail crane
Safety equipment: normal power plant fire extinguisher
Urban infrastructure: water, gas and usual urban sewage facilities, telecommunications tower
Physical protection: secure site fence, CCTV, security lock, guard
Establishment capital: $300,000 + $17,500,000 for 50 MW
Return on investment: 14 months maximum
Production cost: 610 thousand dollars annually
Annual profit: 17,015,000 dollars in Iran

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