AWFY constant pressure variable frequency water supply connects directly with municipal water for pressurization, featuring a vacuum suppression system to prevent negative pressure on the municipal water network.
Fully automatic operation with no manual supervision: Utilizes the latest intelligent control technology for full automatic operation.
Constant outlet pressure: Smart variable frequency technology automatically adjusts the pump speed and number of units in operation to maintain constant pipeline pressure, keeping the entire water supply system in an optimal state of high efficiency and energy savings.
Stacked pressure operation for significant energy savings: Makes full use of the municipal network's inherent pressure through stacked pressure operation. The system automatically optimizes adjustments based on the pump's performance curve, ensuring each pump operates at its high-efficiency point to effectively save energy.
Safe Operation with No negative pressure: Utilizes a vacuum suppressor to continuously monitor pressure and water level, with remote monitoring and warning alerts.
Hygienic and Safe: All flow components are made of food-grade stainless steel, fully complying with water hygiene standards.
Longer Service Life: The equipment's piping is processed with high-precision laser CNC technology and automatic welding techniques, combined with low-pressure components from internationally renowned brands to ensure a longer service life.
▍Operating Conditions
Liquid Properties: For low-viscosity, non-flammable, non-explosive, and non-vaporizing liquids that do not contain solid particles or fibers. The liquid must not chemically react with system materials. If the liquid's density and viscosity exceed that of water, a higher power motor is required, consult us please.
Voltage: Three-phase 380VAC
Medium temperature: 0~70°C
Ambient temperature: +40°C
Maximum altitude: 1000 meters
▍Technical Parameters
Flow rate: 0.4~960 m³/h
Head: 4~305 m
▍Application Scenarios
Water utilities: For water management in municipal water companies and water service groups.
Residential areas: For water supply in residential neighborhoods, town pump stations, etc.
Commercial buildings: For water supply in office buildings, large supermarkets, and other commercial facilities.
Public places: For water supply in schools, hospitals, hotels, sports venues, golf courses, and other public spaces.
Industrial use: fFor water supply in food processing plants, pharmaceutical factories, chemical plants, power plants for cooling, etc.
Agricultural and landscaping: For irrigation in flower companies, garden sprinkler systems, agriculture, and urban greening.
Public transport: For water supply in metro stations, train stations, airports, and other transportation hubs.
▍System Performance Comparison
Benchmarking against leading variable frequency water supply systems:
| Parameter | AWFY-3000 | Yaruo YVFS-2800 | Kaiyuan QKY-3500 | Liansheng LS-VFC |
|---|---|---|---|---|
| Pressure Stability | ±0.01MPa | ±0.03MPa | ±0.02MPa | ±0.025MPa |
| Energy Efficiency Ratio | 0.87kW/m³ | 1.12kW/m³ | 0.95kW/m³ | 1.05kW/m³ |
| Flow Range (m³/h) | 2-1800 | 5-1200 | 10-1500 | 8-1350 |
| Harmonic Distortion | <3% (IEEE 519-2022) | 8% | 5% | 6.5% |
| Pump Coordination Logic | Adaptive AI algorithm | Fixed sequence | PID-based | Time-sharing |
| Communication Protocols | 7 industrial standards | Modbus RTU only | Modbus TCP+Profibus | Modbus TCP+CanOpen |
| Water Hammer Prevention | Predictive wave dampening | Basic relief valves | Delayed shutoff | Pressure surge tanks |
| Redundancy Design | N+2 hot standby | Single pump backup | N+1 configuration | Manual switchover |
Key differentiators:
Non-pressurized vessel design reduces maintenance costs by 40%
Deep learning flow prediction improves pump switching accuracy by 32%
SiC MOSFET inverters achieve 98.5% conversion efficiency
▍Core Technological Advantages
1. Intelligent Hydraulic Management
Three-Dimensional Control System:
Real-time pipe network modeling
Transient pressure wave analysis
Demand-pattern recognition engine
Multi-Objective Optimization:
Energy consumption minimization
Equipment lifespan balancing
Water quality preservation (residence time control)
2. Advanced Power Electronics
Hybrid Conversion Architecture:
3-level ANPC topology (IEC 61800-9-2 compliant)
Active front-end rectification
DC bus voltage stabilization (±1%)
Ride-through capability (0.5s@50% voltage dip)
3. Cyber-Physical Integration
Leike WaterCloud Platform features:
Digital twin synchronization
Cybersecurity (IEC 62443 Level 2)
Blockchain-based maintenance logs
Predictive component replacement alerts
▍Maintenance Strategy Matrix
Lifecycle Service Framework
| Component | Inspection Interval | Key Parameters | Tools Required |
|---|---|---|---|
| Frequency Converter | 6 months | DC ripple <5%, IGBT temp <85°C | Thermal camera, Power analyzer |
| Pressure Sensors | 12 months | Accuracy ±0.1% FS | Deadweight tester |
| Pump Couplings | 18 months | Alignment <0.05mm | Laser alignment kit |
| Control Software | Quarterly | Vulnerability scanning | Penetration testing suite |
| Hydraulic Accumulators | 24 months | Precharge pressure ±5% | Nitrogen charging station |
Failure Prevention Protocol
Predictive Analytics:
Motor current signature analysis
Lubricant dielectric strength monitoring
Bearing vibration trend forecasting
Condition-Based Maintenance:
Degradation rate calculations
Remaining useful life projections
Spare parts inventory optimization
▍FAQs
Q1: Integration with Existing SCADA Systems?
Unified Communication Gateway:
OPC UA server integration
IEC 60870-5-104 protocol support
MQTT data bridging for cloud platforms
Legacy system emulation modules
Q2: Performance in Intermittent Demand Scenarios?
Micro-Flow Optimization Package:
Low-flow bypass circuit
Variable geometry impellers
Sleep mode activation (0.5m³/h threshold)
Instant wake-up response (<0.5s)
Q3: Expansion Capabilities for Growing Networks?
Modular Scalability:
Parallel unit synchronization
Pressure zone segmentation
Flow capacity increments (25% steps)
Distributed control architecture
Q4: Compliance with Water Quality Regulations?
Hygienic Design Package:
316L stainless steel wet surfaces
Automatic air venting system
UV-C disinfection compatibility
Low-stagnation pipe routing
▍Emerging Technology Integration
1. Digital Twin Water Networks
Virtual system capabilities:
Leakage simulation (EPANET integration)
Energy consumption forecasting
Pump wear pattern visualization
Emergency scenario modeling
2. AI-Driven Demand Forecasting
Machine learning models analyze:
Historical consumption patterns
Weather data correlations
Population mobility trends
Industrial production schedules
3. Next-Generation Materials
Advanced Component Upgrades:
Graphene-enhanced thermal interface
Self-monitoring composite pipes
Piezoelectric pressure harvesters
Photocatalytic coating systems
▍Sector-Specific Configurations
| Application | AWFY Variant | Specialized Features |
|---|---|---|
| High-Rise Buildings | AWFY-HV | 2.5MPa pressure capability |
| Industrial Parks | AWFY-IND | 12-pump cascade control |
| Agricultural Irrigation | AWFY-AGRO | Soil moisture feedback integration |
| Water Treatment Plants | AWFY-WTP | Chemical dosing synchronization |
| Municipal Distribution | AWFY-MUNI | DMA pressure management |
▍Sustainability Achievements
1. Energy Recovery Innovations
Regenerative Power System:
Kinetic energy recuperation
Excess pressure conversion
Microgrid compatibility (IEEE 1547)
23-28% reduced grid consumption
2. Water Conservation Technology
Smart Leakage Management:
Transient wave analysis
Night flow monitoring
District metering integration
Automated pressure reduction
3. Circular Economy Implementation
Component Rebirth Program:
92% material recovery rate
Remanufactured drive certification
Carbon offset tracking system
Take-back logistics network
▍Conclusion: Transforming Water Infrastructure Intelligence
The AWFY Non-Pressurized Variable Frequency Water Supply Equipment establishes new benchmarks in smart water management through adaptive hydraulic control, energy-optimized operation, and predictive maintenance capabilities. This system empowers utilities and industries to achieve sustainable water distribution while meeting evolving regulatory requirements.
▍Model Description
