Project Name: Pole-mounted Water Quality Online Monitoring Station in Lingbi County Industrial Park, Anhui
Project Location: Industrial Park, Lingbi County, Anhui
LINKSOLAR’s Core Contribution: Design, manufacturing, and installation support of high-quality pole-mounted solar panel mounting brackets.
Project Background:
Real-time, accurate water quality monitoring is crucial for environmental management and related industrial development. In areas like the Lingbi County Industrial Park in Anhui, many important water monitoring points are located in outdoor environments lacking grid power. To overcome power supply and infrastructure limitations and achieve continuous online monitoring of water quality parameters, pole-mounted monitoring stations powered by solar energy have become the ideal solution. The key to success in such projects lies in having reliable equipment installation support to ensure long-term stability and efficient operation of the entire system.
System Used and Challenges (Enabled by Your Bracket Solution):
This project implemented an advanced pole-mounted online water quality monitoring system with powerful monitoring capabilities but high requirements for power supply and installation. The system core includes multi-parameter water quality sensors, low-power data collectors, data transmission modules, and protective enclosures.
Below are the main technical parameters of the water quality monitoring system:
| No. | Parameter | Measurement Range | Principle | Accuracy | Standard Config. | Notes |
|---|---|---|---|---|---|---|
| 1 | Temperature | 0~50℃ | High-precision digital sensor | ±0.3℃ | ✓ | |
| 2 | pH | 0~14 (pH) | Electrochemical (glass electrode) | ±0.1 pH | ✓ | |
| 3 | ORP | -1500mV~1500mV | Electrochemical (glass electrode) | ±6mV | ✓ | |
| 4 | Conductivity | 05000μS/cm; 0100000μS/cm | Contacting electrode method | ±1.5% | ✓ | |
| 5 | Turbidity | 040NTU (Low); 01000NTU (Medium); 0~10000NTU (High) | Scattering light method | ±1% | Optional | Low, Medium, and High range customizable |
| 6 | Dissolved Oxygen | 0~20mg/L | Luminescence method | ±2% | ✓ | |
| 7 | Ammonia Nitrogen | 0~100mg/L | Ion-selective electrode method | ±1mg | ✓ | |
| 8 | COD | 0~500mg/L | UV254 Absorption method | ±5% | Optional, COD probe all-in-one; with auto-cleaning, prevents biofouling and light window contamination; ensures long-term stable operation | |
| 9 | Oil Content | 0~400NTU | Scattering light method | ±1% | Has stability; can be configured for automatic cleaning, power consumption approx. 0.7W | |
| 10 | Suspended Solids | 0~2000mg/L | Scattering light method | ±5% (depending on sludge type) | ||
| 11 | Chlorophyll | 0~400μg/L | Fluorescence method | R² > 0.999 | With auto-cleaning, prevents biofouling and light window contamination; ensures long-term stability; can set cleaning interval; power 0.7W |
The system features a low-power data collector with static power consumption less than 1mA, integrated into an IP66 waterproof enclosure, and transmits data via GPRS. Despite the system’s excellent performance, mounting it securely and efficiently on a pole with solar power supply in an environment without grid power remains a major project challenge. This includes designing and providing mounting brackets that perfectly match the customer’s pole, withstand outdoor conditions, and allow optimal solar panel angles.
Core Solution: Professional Pole-Mounted Solar Panel Installation Bracket
As experts focused on providing high-quality solar mounting brackets for various applications, LINKSOLAR played a crucial role in this project by providing customized pole-mounted solar panel installation bracket solutions:
- Highly Targeted Customized Pole Connection Bracket:
- We custom-designed mounting brackets that tightly and securely embrace or connect to the pole based on its specific specifications, ensuring seamless integration between bracket and pole structure.
- The bracket design ensures reliable fixation at the predetermined position on the pole (such as the installation height requirements in this project).
- Excellence in Material Selection and Anti-corrosion Process:
- Our pole-mounted installation brackets are manufactured using high-strength materials (for example, professionally hot-dip galvanized carbon steel commonly used for outdoor environments). These materials and processes ensure outstanding corrosion resistance and long-term structural stability in humid, complex environments, effectively resisting wind loads and ensuring the safety of solar panels and equipment installed at 1.5-meter height pole positions.
- Optimized Solar Panel Angle Adjustment:
- The bracket integrates an angle adjustment mechanism allowing solar panels to be adjusted to optimal tilt angles based on local latitude and seasons, maximizing solar energy capture to provide sufficient power input for the entire solar power system (including charging management modules with MPPT maximum power point tracking functionality).
- Convenient and Efficient Installation Design:
- Our bracket design considers on-site installation convenience, optimizing connectors and installation steps to make the entire process of mounting solar panels and equipment boxes on poles more efficient, requiring no complex wiring or additional large station house construction.
Project Outcomes and Customer Value:
Through LINKSOLAR’s professional pole-mounted solar panel installation brackets, the Lingbi County water quality online monitoring station successfully achieved reliable deployment and operation in an environment without grid power:
- Ensures Stable System Operation: Our installation brackets provide a stable platform and optimal angle for solar panels, ensuring the efficiency of the solar power system, thereby providing the power foundation for continuous, stable operation of the water quality monitoring system (including various sensors and collectors).
- Ensures Data Accuracy: The bracket’s stability prevents solar panel and equipment box movement, which is crucial for water quality monitoring systems relying on precise sensors, helping ensure data accuracy and stability.
- Improves Deployment Efficiency and Reduces Costs: Well-designed pole mounting brackets simplify on-site construction, and combined with independent solar power, avoid expensive wiring and station house construction costs.
- Long-lasting Equipment and Brackets: High-quality anti-corrosion brackets combined with the equipment’s protection rating ensure long-term reliability and low maintenance requirements for the entire outdoor system.
This case study fully demonstrates [Your Company Name]’s core capability in providing professional, customized solar panel mounting bracket solutions for various outdoor and independent power applications. We focus on solving the challenge of “how to reliably mount solar panels on various structures” for our customers.
Note About Our Supporting Equipment Support
Although our core contribution to this project was the solar installation bracket, with our experience and resource integration capabilities in related fields, we can also assist in procuring or providing high-performance water quality monitoring equipment (including sensors, collectors, transmission modules, protective enclosures, and cloud platform integration services mentioned in this article) as complementary options to our solar power and mounting bracket solutions, should you or your customers require, providing more comprehensive support.
If you are looking for reliable solar mounting bracket solutions, have specific project customization needs, or are interested in integrated field monitoring solutions, you can Kontaktieren Sie uns directly via email or phone. We look forward to working with you!
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