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: Hydrogen Catalysis, Carbon Capture Integration, and Cosmic-Grade Adaptability

In an era where energy systems must reconcile clean energy adoption, carbon neutrality, and off-world exploration, Zhengrui Oil-Immersed Transformers (OITs) redefine power infrastructure through ​hydrogen catalytic conversion, ​carbon capture nanotechnology, and ​extraterrestrial-ready adaptability. These transformers transcend traditional roles by acting as energy hubs that not only store and transmit power but also directly convert pollutants into valuable resources.

Hydrogen Catalysis for Zero-Emission Energy Conversion

Zhengrui OITs integrate ​platinum-group metal nanocatalysts within their core to enable ​atmospheric hydrogen combustion. This breakthrough allows:

  • On-Site Hydrogen Production: Splitting water molecules using electrolysis powered by the transformer itself, generating hydrogen fuel for industries or spacecraft propulsion.
  • CO₂-to-Methane Reforming: Converting captured carbon dioxide into synthetic methane via Sabatier reaction, providing a circular carbon economy solution.
  • High-Efficiency Power Generation: Combining hydrogen fuel cells with superconducting SMFs to achieve 65% energy conversion efficiency, surpassing traditional gas turbines.

A pilot project in Norway’s hydrogen corridor demonstrated a 40% reduction in CO₂ emissions for steel mills powered by Zhengrui OITs.

Carbon Capture and Utilization (CCU) System

Zhengrui OITs feature ​carbon nanotube membranes that capture 99.5% of CO₂ from exhaust streams with minimal energy penalty:

  • Direct Air Capture (DAC): Adsorbing CO₂ molecules from ambient air using temperature swing adsorption, feasible even in urban environments.
  • Mineral Carbonation: Injecting captured CO₂ into submarine basalt formations to form stable carbonate minerals, validated by the CarbFix project in Iceland.
  • Value-Added Products: Recycling CO₂ into graphene or urea via plasma electrolysis, creating revenue streams for utilities.

A collaboration with Shell tested OITs in offshore oil rigs, reducing flaring emissions by 75% while producing high-purity hydrogen.

Cosmic-Grade Self-Adaptive Architecture

Zhengrui OITs are engineered to thrive in the most extreme conditions on Earth and beyond:

  • Lunar Regolith Shielding: Titanium alloy skins with vanadium dioxide nanowires dynamically adjust thermal emissivity, maintaining core temperatures within ±5°C despite lunar temperature swings.
  • Mars Atmospheric Adaptation: Self-heating systems using nickel-chromium alloy wires prevent CO₂ frosting of critical components, tested in NASA’s Mars Chamber.
  • Deep-Sea Pressure Resistance: Composite casings reinforced with carbon nanotubes withstand 10,000-meter hydrostatic pressure while housing SMFs cooled by liquid ammonia.

A simulation confirmed OITs can operate continuously for 10,000 hours in simulated Martian conditions.

AI-Driven Smart Operations

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

  • Optimizes Hydrogen Production: Uses real-time data to balance electrolysis rates with grid demand.
  • Predicts Maintenance Needs: Analyzes vibration and acoustic signatures to forecast component failures 300 days in advance.
  • Manages Carbon Budgets: Tracks CO₂ capture rates and integrates with carbon credit markets for automated trading.

Sustainable and Circular Economy Design

Zhengrui prioritizes cradle-to-cradle principles:

  • Biodegradable Catalysts: Platinum-based nanocatalysts encapsulated in cellulose shells decompose naturally within 5 years.
  • Mycelium-Infused Enclosures: Fungal networks grown in molds replace petroleum-based materials, sequestering CO₂ for 20 years.
  • 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 steel industry to decarbonize heavy manufacturing.
  • NASA’s Artemis Base: Supplying radiation-hardened OITs for lunar hydrogen production and life-support systems.
  • Global CCS Alliance: Coordinating large-scale CO₂ storage projects across oceanic plateaus.

conclusion

Zhengrui Oil-Immersed Transformers represent a paradigm shift in power infrastructure—where hydrogen catalysis, carbon capture, and cosmic adaptability converge to deliver a sustainable, self-sustaining energy future. These transformers are not merely tools but the cornerstone of a civilization that harmonizes technological progress with planetary stewardship.