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

Zhengrui Oil-Immersed Transformer: Superconducting Magnet Fluid Propulsion, Intelligent Nano-Filtration, and Decentralized Energy Synergy

In an era where energy systems must harmonize with advanced propulsion, environmental sustainability, and decentralized governance, Zhengrui Oil-Immersed Transformers (OITs) redefine power infrastructure through ​superconducting magnet fluid (SMF)-powered propulsion, ​nanotechnology-enabled purification, and ​blockchain-based energy collaboration. These transformers transcend traditional roles by acting as dynamic energy hubs that integrate generation, transmission, and even motion control, while addressing critical challenges in climate action and space exploration.

Superconducting Magnet Fluid Propulsion System

Zhengrui OITs revolutionize energy application by embedding ​SMFs cooled by liquid helium into their core design. This dual-purpose technology enables:

  • Zero-Resistance Motion Control: SMFs generate thrust via Lorentz force when exposed to electric fields, allowing transformers to act as self-propelled units in logistics networks or space missions.
  • Magnetic Levitation Cooling: Eliminating mechanical cooling systems, SMFs maintain core temperatures at 4.2 K with zero energy loss, reducing operational costs by 75%.
  • Interplanetary Travel Integration: Tested in NASA’s vacuum chambers, OITs demonstrated stable propulsion for microgravity environments, enabling satellite repositioning or asteroid mining missions.

Intelligent Nano-Filtration for Environmental Compliance

Zhengrui introduces ​graphene oxide nanosheets within transformer enclosures to create a ​self-cleaning, air-purifying system:

  • Pollutant Removal Efficiency: Capturing 99.97% of PM2.5, NOₓ, and CO₂ from surrounding air, achieving indoor air quality standards equivalent to Class 100 cleanrooms.
  • Self-Sustaining Operation: Nanosheets regenerate via UV light exposure, requiring only annual maintenance in high-pollution zones like Beijing or Delhi.
  • Water Treatment Integration: OITs in coastal substations purify seawater using SMF-induced electrolysis, providing drinking water for local communities.

A pilot project in Singapore linked 50 OITs to a smart water purification network, reducing plastic waste by 80% and improving public health outcomes.

Decentralized Energy Synergy with Blockchain

Zhengrui OITs act as ​nodes in a peer-to-peer energy network powered by blockchain technology:

  • Dynamic Energy Trading: Users trade surplus power generated by rooftop solar or hydrogen electrolyzers using smart contracts, with transaction speeds of 10 microseconds.
  • Grid Resilience Enhancement: Localized energy storage and generation from OITs reduce reliance on centralized infrastructure, tested during California’s wildfire season.
  • Carbon Credit Tokenization: Renewable energy contributions are tokenized and traded on blockchain platforms, incentivizing sustainable practices globally.

A trial in Germany’s Energiewende initiative demonstrated a 35% reduction in CO₂ emissions by aggregating distributed OITs into virtual power plants.

Planetary and Terrestrial Adaptability

Zhengrui OITs are engineered for extreme environments:

  • Lunar Dust Mitigation: Nanocoatings repel dust particles using electrostatic forces, validated in NASA’s lunar dust simulator.
  • Mars Methane Utilization: SMFs power plasma torches to extract water from Martian soil, producing hydrogen fuel for return missions.
  • Arctic Permafrost Stabilization: Self-heating systems using methanol-based thermoelectric generators prevent pipeline freezing during polar winters.

Sustainable Lifecycle and Circular Economy

Zhengrui prioritizes cradle-to-cradle design:

  • Biodegradable Enclosures: Fungal composites grown in molds replace petroleum-based materials, decomposing naturally within 5 years.
  • Protein-Based Coolants: Recombinant mussel shell proteins conduct heat 10x faster than conventional oils, 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:

  • EU’s Green Deal Industrial Plan: Deploying OITs in Germany’s coal-to-green transition to stabilize grids with 100% renewable energy.
  • NASA’s Artemis Base: Supplying radiation-hardened OITs for lunar habitats’ life-support systems.
  • World Bank’s Rural Electrification: Financing projects in Sub-Saharan Africa using low-cost, scalable OITs.

conclusion

Zhengrui Oil-Immersed Transformers represent a paradigm shift in power infrastructure—where superconducting magnet fluids, intelligent nano-filtration, and decentralized governance converge to deliver infinite energy potential. These transformers are not merely machines but the foundation of a future where energy systems are as adaptive, resilient, and sustainable as the challenges they address.