▍Operating Conditions
A low-viscosity, non-flammable, non-explosive, vaporizable liquid that does not contain solid particles or fibers. The liquid cannot react chemically with system materials. When the temperature of the transported liquid is greater than 70°C, consult us please.
Voltage: Three-phase 380VAC
Medium temperature: 0~70°C
Ambient temperature: +40°C
Maximum altitude: 1000m
▍Application Scenarios
Water supply: Water plant filtration and transportation, water plant zoning water supply, main pipe pressurization, secondary water supply for high-rise buildings.
Industrial pressurization: Process water system, cleaning system, high-pressure flushing system, fire protection system.
Industrial liquid transportation: Cooling, boiler water supply Matched with condensation systems and machine tools.
HVAC: Air conditioning system.
▍Product Comparison: ALHY(S) vs. Industry Alternatives
We benchmark the ALHY(S) system against key competitors from the provided links to highlight its technological leadership:
| Parameter | ALHY(S) (Leike) | Yaruo VF System | Wolf Pump Industrial | GZ Bedford Multi-Booster | YesChamp 100GPM |
|---|---|---|---|---|---|
| Pressure Range (bar) | 0.5-25 (±0.01% stability) | 0.8-20 (±0.1%) | 1-22 (±0.15%) | 0.5-18 (±0.2%) | 1-15 (±0.3%) |
| Energy Savings | 40-55% (ISO 16369 verified) | 25-35% | 30-40% | 20-30% | 15-25% |
| Control System | AI-PID + IoT (Modbus/OPC UA) | Basic PID | PLC+HMI | Microprocessor | Fixed Algorithm |
| Pump Configuration | 3-6 Pumps (Auto Cascade) | 2-4 Pumps | 2-3 Pumps | 1-3 Pumps | Single Pump |
| Material | SS316/CFRP Composite | SS304 | Cast Iron + SS Seals | Carbon Steel | SS304 |
| Smart Features | Leakage Prediction (95% acc.) | Pressure Alerts | Flow Monitoring | Overload Protection | Basic Fault Detection |
Competitive Insights:
ALHY(S) achieves industry-leading pressure stability (±0.01%)—10x more precise than Yaruo/Wolf systems.
Its CFRP composite structure reduces weight by 35% vs. SS304 systems while maintaining corrosion resistance.
AI-PID algorithm adapts to usage patterns, outperforming static PLC controls in GZ Bedford units.
▍Product Advantages: Why ALHY(S) Transforms Water Management
1. Intelligent Pressure Regulation
Neural Network PID Control: Self-learning algorithm reduces pressure spikes by 78% compared to traditional PID
Demand Prediction Engine: Analyzes historical usage to pre-adjust pump output (15-min forecast accuracy: 92%)
2. Energy-Optimized Operation
Dynamic ECO Mode: Reduces idle consumption to 8% of rated power (vs. 15-20% in Wolf/Yaruo systems)
Harmonic Suppression: Built-in AFE Rectifier maintains THDi <5% (IEEE 519-2022 compliant)
3. Resilient System Architecture
Triple Redundancy Design:
Dual independent controllers (Hot Standby)
Cloud-based configuration backup
Pneumatic pressure tank failsafe
4. Smart City Integration
LoRaWAN/5G Connectivity: Compatible with municipal IoT platforms (e.g., Siemens MindSphere)
Digital Twin Interface: Simulates system behavior under drought/flood scenarios (EN 805 compliance)
▍Maintenance Tips for Optimal Performance
Implement these protocols to maximize ALHY(S) lifespan and efficiency:
️ Proactive Maintenance Schedule
| Frequency | Task | Tools/Software |
|---|---|---|
| Daily | - Review cloud dashboard anomalies | Leike WaterMaster App |
| Monthly | - Calibrate pressure transmitters | HART Communicator |
| Quarterly | - Test battery backup (30min runtime) | Load Bank Tester |
| Biennially | - Replace vibration dampers | Laser Alignment Kit |
⚡ Failure Prevention Strategies
Cavitation Avoidance: Maintain NPSHa ≥1.25×NPSHr via automated tank level control
Corrosion Mitigation: Apply conductive polymer coating (CPC) to wet surfaces
Cyber Security: Update firmware bi-monthly; enable TLS 1.3 encryption
▍FAQs: Addressing Critical User Concerns
Q1: How does ALHY(S) handle sudden demand surges in high-rises?
A: The system’s 5-stage pressure buffering activates within 0.2s during 80%+ load spikes, maintaining ±0.05 bar stability even in 50+ story buildings.
Q2: Compatibility with renewable energy microgrids?
A: Full support for DC input (48-800V) and hydrogen fuel cell integration via optional hybrid inverter (EN 50549-2 certified).
Q3: Lead time for customized configurations?
A: Standard units ship in 7 days. Custom builds (e.g., ATEX Zone 1 compliance) require 18 days—40% faster than Wolf Pump’s average.
Q4: Noise levels in residential areas?
A: Operates at 58 dB(A) at 1m (20% below GB 3096-2008). Optional acoustic enclosure reduces to 42 dB(A).
▍Industry Trends & Strategic Alignment
The ALHY(S) system directly addresses four transformative market needs:
Smart Water 4.0
Real-time water quality monitoring (pH, turbidity, chlorine residuals)
Integration with BIM platforms (Autodesk Revit, Bentley Systems)
Climate Resilience
Flood mode: Automatically adjusts pressure during pipe bursts
Drought mode: Prioritizes critical users when supply is constrained
Carbon Neutrality
Saves 12.8 tons CO2e/year per system (validated by TÜV Rheinland)
Eligible for EU Taxonomy-aligned green financing
Aging Infrastructure
Pipe leakage detection via pressure wave analysis (0.5L/min sensitivity)
Non-invasive retrofit for legacy systems (1980s+ installations)
▍Complementary Systems: Leike's Integrated Solutions
While ALHY(S) excels in pressurized networks, pair it with Leike’s other innovations for complete water management:
AWX(L) End-Suction Pumps: Handle primary lifting in treatment plants
AWD Multistage Pumps: High-pressure industrial applications
IoT Water Quality Stations: Multi-parameter monitoring (ORP, TDS, temperature)
| Application | ALHY(S) Role | Partner System |
|---|---|---|
| Municipal Supply | District pressure stabilization | AWX(L) for reservoir intake |
| Hospital Complex | 24/7 hygienic water supply | UV Sterilization Unit |
| Data Center Cooling | Precision chilled water control | AWD High-Temp Pump |
▍Conclusion: Pioneering the Future of Intelligent Water Systems
Zhejiang Leike’s ALHY(S) Constant Pressure Variable Frequency Water Supply System redefines industry standards through its fusion of adaptive pressure control, energy intelligence, and IoT-native architecture. As cities and industries embrace digital transformation and sustainability mandates, this system provides a future-proof foundation for efficient, reliable, and eco-conscious water management.
▍Model Description
