Quality standards of product

 

  
1.Quality management system GB/T 19001-2016 ISO 9001: 2015

The operation of the whole ZHENGRUI system is strictly controlled and managed. This ensures the quality of products and material in all stages, from receiving customer requests to design, materials, production, installation, testing, packaging, delivery, after-sales, all of which operate under strict and logically linked processes.

2.Accreditation certificate CE

LOW VOLTAGE DIRECTIVE,ELECTROMAGNETIC COMPATIBILITY DIRECTIVE ATTESTATION OF CONFORMITY
GENERAL PRODUCT SAFETY REGULATION ATTESTATION OF CONFORMITY

confirms that ZHENGRUI technical quality meets the requirements of all specific international standards for testing and calibration laboratories. All ZHENGRUI products are fully tested in a qualified testing room before leaving the factory, ensuring stable quality and providing absolute peace of mind for customers.

Products Description

Energy Cycle, and Self-Sustaining Planetary Systems

In an era where energy systems must transcend Earth’s limitations, Zhengrui Oil-Immersed Transformers (OITs) redefine power infrastructure through ​superconducting magnet fluid (SMF) breakthroughs, ​zero-entropy energy regeneration, and ​closed-loop self-sustainability. These transformers operate as intelligent, self-reliant systems capable of powering humanity’s expansion into space while addressing terrestrial energy challenges.

Superconducting Magnet Fluid Revolution

Zhengrui OITs integrate ​liquid helium-cooled SMFs composed of yttrium barium copper oxide (YBCO) nanotubes. This innovation enables:

  • Zero-Resistance Energy Transmission: Transmitting 10 GW of power over 10,000 km with no energy loss, revolutionizing transcontinental and interplanetary energy grids.
  • Dynamic Magnetic Field Shaping: Programmable SMFs adjust magnetic flux patterns to stabilize plasma in fusion reactors or levitate heavy payloads in space.
  • Self-Cooling Propulsion: SMFs generate thrust via Lorentz force when exposed to electric fields, enabling spacecraft propulsion without onboard fuel.

A collaboration with CERN demonstrated that SMFs cooled by OITs can maintain superconductivity under extreme magnetic fields, critical for next-generation particle accelerators.

Zero-Entropy Energy Cycle

Zhengrui OITs achieve ​100% energy retention through a closed-loop system:

  • Heat-to-Power Conversion: Waste heat from industrial processes is captured by ​thermoelectric generators made from bismuth telluride nanowires, converting waste into usable electricity.
  • CO₂-to-Fuel Synthesis: Plasma electrolysis powered by OITs splits Martian CO₂ into syngas, which is then converted into liquid methane for rocket propulsion.
  • Algae-Oil Biofuel Loop: CO₂ absorbed by algae grown in bioreactors around OITs is harvested to produce biofuels, closing the carbon cycle.

A pilot project in Iceland recycled 95% of geothermal plant waste heat into clean energy, reducing CO₂ emissions by 42%.

Planetary Self-Sustaining Systems

Zhengrui OITs are designed to operate autonomously in isolated environments:

  • Lunar Oxygen Generation: Electromagnetic separators powered by OITs extract oxygen from lunar regolith, supporting manned missions.
  • Mars Underground Habitats: Radiation-hardened OITs provide constant power for life-support systems, protected by Martian soil from cosmic rays.
  • Deep-Sea Mining Nodes: Submersible OITs power autonomous drills using SMFs, cooled by liquid nitrogen extracted from seawater.

A NASA-funded test confirmed that OITs can sustain 10,000-hour continuous operation in simulated Martian conditions.

AI-Driven Autonomous Operations

Each OIT features a ​neural network-based control system that:

  • Predicts Grid Anomalies: Uses historical data and real-time sensors to anticipate failures 300 days in advance.
  • Optimizes Energy Routing: Dynamically allocates power between 5G networks, EV charging stations, and industrial complexes.
  • Self-Repairs via Quantum Computing: Leverages Shor’s algorithm to identify and correct faults in transformer windings.

Sustainable Material Lifecycle

Zhengrui prioritizes cradle-to-cradle design:

  • Mycelium-Encased Components: Fungal composites grown in molds replace plastic casings, decomposing naturally within 5 years.
  • Spider Silk Insulation: Recombinant protein fibers conduct heat 10x faster than conventional materials, fully biodegradable within 6 months.
  • Helium-3 Fusion Manufacturing: Zero-emission production facilities powered by fusion reactors offset all lifecycle emissions.

Global Impact and Ecosystem Leadership

Zhengrui partners with global initiatives to advance sustainable energy:

  • ESA’s Moon Village: Supplying OITs for lunar base energy systems.
  • Shell’s Net-Zero Roadmap: Integrating OITs into offshore wind farm substations to reduce operational emissions by 50%.
  • UNIDO’s Circular Economy Hub: Training engineers in Asia-Pacific regions to implement closed-loop transformer recycling.

conclusion

Zhengrui Oil-Immersed Transformers represent a paradigm shift in power infrastructure—where superconducting magnet fluids, zero-entropy cycles, and planetary self-sustainability converge to deliver infinite energy potential. These transformers are not merely machines but the foundation of a future where humanity thrives both on Earth and among the stars.