Product Center
-
Hydrological equipment monitoring station
-
Water Quality Monitor Sensor
-
Plant protection equipment
-
Food Testing Equipment
- Water quality monitoring instruments Parameter Types and Application Areas Analysis
- Automatic Soil Monitoring System Enables Automatic Monitoring of Soil Profile Temperature, Humidity, and Electrical Conductivity
- Handheld radar flow meter Non-Contact Flow Velocity Measurement and Application Scenarios
- How to measure the moisture content of plant soil?
- Small automatic water quality monitoring system Real-time Monitoring of Water Temperature, Conductivity, pH, and Multiple Water Quality Parameters
- Groundwater Monitoring Application Scope and Measurement Performance
Shandong Fengtu IOT Technology Co., Ltd
Sales Manager:Ms. Emily Wang
Tel, Whatsapp:+86 15898932201
Email:info@fengtutec.com
Add:No. 155 Optoelectronic Industry Accelerator, Gaoxin District, Weifang, Shandong, China
IoT Water Quality Monitoring Station
Model:FT-SFB
Brand:fengtu
Get a Free Quote
Product details
1. Introduction to IoT Water Quality Monitoring Station functions
1. The IoT Water Quality Monitoring Station is composed of a variety of sensors, data collectors, and communication modules to monitor surface water quality and upload the iot cloud platform.IoT Water Quality Monitoring StationSFB adopts an enhanced integrated cone structure to increase equipment stability and durability and is more in line with floating body engineering.
It can measure the hydrological, water quality and meteorological parameters in lakes or river basins in real time. The system integrates data collection and transmission, and has the function of SMS alarm for exceeding the standard and automatic light sensing. It has the characteristics of multiple measurement parameters, high measurement accuracy, large storage capacity, convenient networking and stable operation. The buoy adopts an unattended intelligent control system to complete the data collection and data transmission of multiple sensors; the solar panels and large-capacity batteries form a solar power supply system to ensure the power required for the system to work in the field for a long time; the buoy body is made of ultra-high molecular polyethylene material, which has good anti-corrosion ability, prevents biological attachment, does not fade, has strong anti-collision ability, anti-lightning, non-magnetic and other characteristics, and is suitable for complex hydrological and hydrodynamic conditions such as reservoirs.
2. The water quality monitoring system consists of six parts: water quality sensor, data acquisition instrument, communication system, power supply system, overall support, and water quality monitoring platform. It can simultaneously monitor water temperature, pH, dissolved oxygen, conductivity, ammonia nitrogen, turbidity, COD, and other water quality factors. The data acquisition instrument has data acquisition, real-time clock, data timing storage, parameter setting, and standard 2G/4G (GPRS) communication functions.
2. IoT Water Quality Monitoring Station Product Features
1. Easy to deploy: various types of probes are highly integrated and easy to install; free cloud platform services are provided, and the system can be quickly put online;
2. Easy maintenance: After the equipment is installed, it can work automatically without manual supervision. The normal operation of the equipment can also be ensured by remote monitoring;
3. Easy to expand: sensor probes all use a unified communication protocol, which can quickly connect to the original equipment and quickly expand monitoring parameters;
4. Low power consumption: The device can run for a long time in a low power consumption state, increasing the convenience of device use;
5. Real-time: The data monitored by the equipment is transmitted to the cloud platform in real time to improve the timeliness of environmental data feedback.
3. IoT Water Quality Monitoring Station Technical Parameters
1. Subject parameters
| product name | describe |
| IoT Water Quality Monitoring Station |
Real-time online monitoring of multiple parameters can be achieved. Battery charge monitoring can be realized. It can realize cloud platform data monitoring, data push, data storage and alarm functions; data wireless transmission function. The peak power consumption is 5W; the sensor power consumption is about 0.25W per sensor. Overall dimensions: 800*350mm. Maximum float diameter 790mm Weight: 26kg |
| Core components | describe |
| Collector data collection | Reliable operation, anti-interference, can integrate multiple RS485/MODBUS-RTU slave devices |
| Collector data output | 1 channel RS485/JSON protocol output |
| Battery | Lithium battery 12VDC, 20AH (default) |
| solar panel | 18V/55W (default) 800mm round solar panel frame aluminum alloy custom |
| Power supply capability | Customized selection; intermittent operation for more than 5 days on rainy days |
| Position indicator (optional) | Warning light;GPS positioning; |
| Monitoring Platform | Cloud platform; mobile phone/computer multi-terminal login |
| protecting mask | 304 stainless steel filter cartridge protective cover |
| Floating body | Diameter 790mm Conical float*1 Integrated engineering plastic |
2. Main parameters of optional sensors
| Model | Name | Measurement range | Principle | Measurement accuracy | Resolution | Is it standard equipment | Note |
| S1S | cod | 0~1000mg/L | UV254 absorption method | ±5%, ±0.3℃ | 0.1mg/L | cod turbidity integrated; brush self-cleaning, with temperature compensation | |
| Turbidity | 0~400NTU | Scattering light method | ±1%, ±0.3℃ | 0.1NTU | |||
| S2 | Water hardness | 0~1000.0mg/L | Contact method of electrode | Reading ±10%; ±0.3℃ | 0.1mg/L | ||
| S3 | pH | 0~14 (ph) | Electrochemistry (salt bridge) | ±0.1PH;±0.1℃ | 0.01 | With warm supplement | |
| pH | 0~14 (ph) | Electrochemistry (salt bridge) | ±0.1PH;±0.1℃ | 0.01 | |||
| S5 | Ammonium nitrogen | 0~1000mg/l | Ion selective electrode method | 10% of the reading, ±0.5℃ | 0.01mg | Ammonia nitrogen pH integrated; with temperature compensation | |
| pH | 0~14 (ph) | Electrochemistry (salt bridge) | ±0.1PH;±0.1℃ | 0.01 | |||
| S6 | ORP | -1500mv~1500mv | Electrochemistry (salt bridge) | ±6mv | 1mV | ||
| S7 | Electrical conductivity | 0~10000uS/cm | Contact method of electrode | ±1.5%; ±0.1°C | 1uS/cm | With warm supplement | |
| S7H | High range conductivity | 0~30000μS/cm | Contact method of electrode | ±1.5%; ±0.1°C | 1uS/cm | High range conductivity TDS salinity sensor; with temperature compensation | |
| TDS | 0-10000ppm | Contact method of electrode | ±1.5%; ±0.1°C | 1ppm | |||
| Salinity | 0-10000ppm | Contact method of electrode | ±1.5%; ±0.1°C | 1ppm | |||
| S8 | Dissolved oxygen | 0~20mg/L | Fluorescence lifetime method | ±2%, ±0.3℃ | 0.01mg/L | With warm supplement | |
| S9 | Turbidity | 0~1000NTU | Scattering light method | ±1%, ±0.3℃ | 0.1NTU | With warm supplement | |
| S10 | Suspended matter | 0~2000mg/L | Scattering light method | ±5% (depending on the homogeneity of the sludge) | 0.1mg/L | ||
| S11S | Sludge concentration | 0~20.000g/L | Scattering light method | ±5% (depending on the homogeneity of the sludge) | 0.001g/L | Brushed self-cleaning | |
| S15S | Chlorophyll | 0~400ug/L | Fluorescence method | R²>0.999 | 0.01ug/L | Self-cleaning with brush; with temperature compensation | |
| S16S | Cyanobacteria | 0~200.0Kcells/mL | Fluorescence method | R²>0.999 | 0.1Kcells/mL | Brushed self-cleaning | |
| S17S | Oil in water | 0~60ppm | Fluorescence method | 0.1ppm | 0.01ppm | Brushed self-cleaning | |
| S20 | Transparency | 50~1000mm | Scattering light method | ±5% (depending on the homogeneity of the sludge) | 1mm | With warm supplement | |
| S21 | Water temperature | −20℃~85℃ | High-precision digital sensor | ±0.1℃ | 0.1℃ |
We can customize appropriate testing solutions based on the actual situation of the customer and the technical indicators to be achieved.
Note: The sensor cannot be installed upside down or horizontally, but must be installed at an angle of at least 15 degrees.
The working environment of the above water quality sensors is 0-50℃, <0.3Mpa.
4. IoT Water Quality Monitoring Station Product Dimensions
5. IoT Water Quality Monitoring Station Equipment Installation Requirements
1. Stay away from high-power radio transmitters
2. Stay away from high-voltage transmission lines and microwave radio transmission channels
3. Try to be close to the data transmission network
4. Stay away from strong electromagnetic interference
This paper addresses:https://www.fengtusz.com/Water-Quality-Monitoring-Buoy/IoT-Water-Quality-Monitoring-Station.html
- Previous Article :Buoy type water quality online monitoring system
- Next Article:no more
Related article
-
What is the radar hydrometer range?
2024-05-23 -
What are the instruments for measuring rainfall?
2024-04-29 -
From Data to Action: How Soil Moisture Testing Equipment Optimizes Agricultural Water Use
2025-07-25 -
Soil EC & Salt Content Sensor TY485: Principle, Range & Applications
2025-06-18 -
Rapid Testing Methods for Soil Moisture, Temperature, Salinity and pH Parameters
2025-09-23 -
What is Soil moisture conditions? The role of Soil moisture conditions monitoring in agricultural irrigation
2025-12-01 -
Agrometeorological Stations: Empowering High-Standard Farmland Construction
2024-09-29 -
Online Ammonia - Nitrogen Sensors: Pivotal Tools in Understanding, Measuring and Solving Ammonia - Nitrogen Issues
2025-02-18
