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BangQi Technology, aligned with the "Dual Carbon" strategic goals, proudly introduces its groundbreaking zero-carbon park system solution. This comprehensive green and low-carbon energy system integrates optimized energy supply, intelligent energy management, advanced comprehensive energy-saving upgrades, and sustainable, low-carbon operations—effectively addressing the diverse energy needs of parks while driving simultaneous improvements in energy conservation, emission reduction, and overall energy efficiency.
The system encompasses a variety of energy forms, including electricity, heat, cooling, steam, and compressed gases. By leveraging technologies such as multi-energy complementarity, cascaded energy utilization, and renewable energy integration (e.g., photovoltaic, wind power, and energy storage), combined with the Energy Internet of Things, cutting-edge energy-saving products, and an intelligent energy management system, the solution helps parks optimize their energy mix, reduce energy intensity, and cut carbon emissions.
The Pongqi Zero-Carbon Park System offers businesses a one-stop, comprehensive energy service covering energy diagnostics, energy-saving renovation design, investment and construction, as well as operation and maintenance. It’s widely applicable across various sectors, including industrial parks, logistics hubs, commercial complexes, hospitals, airports, data centers, hotels, and more—helping companies build a green, low-carbon competitive edge.
Key Highlights
Integrated full-energy chain, one-stop service
Covering a full range of energy systems—including electricity, heat, cooling, steam, and compressed air—and seamlessly integrating the entire energy “supply–distribution–consumption” chain.
Multi-energy complementarity and cascade utilization
Based on the user's energy demand characteristics, scientifically configure multi-energy complementary solutions such as combined cooling, heating, and power systems, waste heat and pressure utilization, and cascaded energy use.
Smart Energy Management Across All Scenarios
By integrating energy IoT technology, AI algorithms, and big data analytics, we’ve created a smart energy management platform that enables 24/7, multi-dimensional energy monitoring, predictive maintenance, and energy efficiency optimization.
Deep Integration of Renewable Energy
By integrating distributed photovoltaic, wind energy, energy storage systems, and more, we can increase the share of renewable energy in the park and accelerate the transition to cleaner energy sources.
Highly flexible business model
We support various collaboration models such as EMC (Energy Management Contract), BOT (Build-Operate-Transfer), and EPC (Engineering, Procurement, and Construction), helping to reduce clients' investment pressures while meeting the diverse financial needs of different businesses.
Energy-saving and carbon-reduction efforts have yielded remarkable results.
By leveraging digital energy management and applying energy-saving technologies, the campus significantly reduces energy consumption and carbon emissions, helping companies achieve their carbon-neutral goals.
Industry Applications
Energy-efficient building sector
Applied to large-scale commercial complexes, data centers, airport terminals, hospitals, hotels, and other building types, focusing on energy-saving renovations for systems such as air conditioning, lighting, hot water, heating, and power distribution.
Perfectly suited for campus hot water projects and the "coal-to-clean energy heating" initiatives in northern regions.
Distributed Energy Station
Multi-supply solutions such as combined cooling, heating, and power (CCHP), centralized district steam supply, and centralized district compressed air supply are ideal for scenarios like industrial parks, factory campuses, and commercial districts, offering both efficiency and cost-effectiveness.
Industrial Energy Efficiency and Integrated Energy Solutions for Industrial Parks
Specializing in energy-efficient upgrades for industrial boilers and kilns, motor frequency conversion, fluid system optimization for energy savings, waste heat and pressure recovery power generation, combined heat and power (CHP) systems, industrial waste recycling, and the resourceful utilization of agricultural byproducts—helping parks create eco-friendly, energy-efficient factories.
Energy Operation Monitoring
Build an Energy IoT to collect multi-dimensional data—such as electricity, gas, water, and heat—in real time, enabling comprehensive monitoring and visualization of equipment operation, energy consumption, and environmental metrics, thereby significantly enhancing energy management efficiency and safety.
Customer Case
Energy Efficiency Retrofit Project for a Hospital in a Northern City
Pain point: Low heating energy efficiency and high operating costs, requiring the implementation of clean heating solutions.
Deployment Plan: Northern Clean Energy Heating Project (coal-to-electricity/coal-to-gas conversion) + Heat Pump System + Waste Heat Recovery System.
Application results: Winter heating energy efficiency improved by 40%, heating costs reduced by 35%, with a 100% clean energy substitution rate, ensuring safer and more reliable operations.
A Comprehensive Energy Services Project for a Commerce and Logistics Park
Pain points: High energy costs, significant energy waste, and substantial load fluctuations.
Deployment plan: Rooftop photovoltaics + distributed energy storage + centralized compressed air supply system + multi-energy dispatch platform.
Application results: Photovoltaic systems generate 25% of the park's annual electricity demand, compressed air energy efficiency has improved by 20%, and energy operation & maintenance efficiency has increased by 50%.
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