Research & Innovation
Pioneering energy-efficient ventilation technology through scientific research and collaboration
China Agricultural University Partnership
Collaborating with leading agricultural researchers to advance livestock ventilation science and develop next-generation energy-efficient solutions.
Scientific Innovation
Our wind tunnel testing facility enables precise airflow analysis and optimization, ensuring maximum energy efficiency and carbon emission reduction.
Energy Efficiency Comparison
Scientific analysis showing significant energy savings and carbon emission reduction compared to traditional systems
Advanced Aerodynamic Research
Our state-of-the-art wind tunnel facility, developed in partnership with China Agricultural University, enables precise measurement and optimization of fan blade aerodynamics, airflow patterns, and energy consumption.
Through rigorous testing protocols, we optimize blade design for maximum airflow efficiency while minimizing power consumption, directly contributing to carbon footprint reduction in livestock farming operations.
Airflow Analysis
Precise measurement of air velocity and distribution patterns
Energy Optimization
Testing for maximum efficiency and minimum power consumption
Wind Tunnel Testing Facility
Advanced aerodynamic testing for energy optimization
Wind Tunnel Test Report
University-certified aerodynamic testing results demonstrating superior airflow efficiency and energy performance
Research Workstation
Advanced R&D facility for continuous innovation
Research & Development Center
Our dedicated R&D workstation houses advanced computational fluid dynamics (CFD) modeling systems and energy analysis equipment, enabling continuous innovation in fan design and performance optimization.
Every design iteration is tested for energy efficiency improvements, ensuring our products deliver maximum performance while contributing to sustainable farming practices and reduced carbon emissions.
Performance Analysis
Comprehensive testing of energy consumption, airflow efficiency, and thermal performance
Design Optimization
Iterative improvement of blade geometry and motor efficiency for carbon reduction
Scientific Validation
University-backed research ensures all performance claims are scientifically verified
Advancing Sustainable Agriculture
Our ongoing research initiatives focus on revolutionary technologies that will further reduce energy consumption and environmental impact in livestock farming.
Smart IoT Integration
Developing AI-powered ventilation systems that automatically optimize energy usage based on real-time environmental conditions and carbon footprint targets.
Carbon-Neutral Farming
Research into renewable energy integration and ultra-efficient motor technologies to achieve carbon-neutral livestock ventilation systems.
Advanced Materials
Exploring next-generation materials for lighter, more durable fans with even greater energy efficiency and reduced manufacturing carbon footprint.