Long-distance Wireless Transmission LoRaWAN Water Quality NH4+ Ion Sensor
xiamen ZONEWU LoRaWAN Water Quality NH4+ Ion Sensor is a low-power wireless IoT device that can simultaneously complete data acquisition, monitoring, and transmission. It is not afraid of light interference and automatically adjusts data based on temperature. With the LoRaWAN protocol, it can wirelessly transmit data over long distances, making it particularly suitable for long-term real-time monitoring in water.
Product Model :
LW112-NH4Power Supply Mode :
Battery or External DCFrequency :
CN470/IN865/EU868/RU864/US915/AU915/ KR920/AS923-1&2&3&4MAC Version :
LoRaWAN 1.0.3Mode :
OTAA Class A/CWeight :
150gLong-distance Wireless Transmission LoRaWAN Water Quality NH4+ Ion Sensor
xiamen ZONEWU The LoRaWAN Water Quality NH4+ Ion Sensor can wirelessly measure the amount of ammonium ions in the water.
xiamen ZoneWu LoRaWAN water Quality NH4+ Ion Sensor Features:
This sensor can adjust the measurement number according to the temperature, regardless of whether it is hot or cold, and the measured data is more accurate.
Due to its automatic temperature control function, it is not afraid of changes in the surrounding environment and can work steadily in various environments.
Compared to devices without this feature, it measures data more accurately and can measure ion content more precisely.
It is very easy to connect with the LoRaWAN collector, just plug it in with an aviation plug, the plug connection is very stable, and the signal transmission is not interrupted.
After connecting, it can wirelessly transmit data without pulling wires, and information can be transmitted in seconds, which is convenient and efficient.
Unqualified industrial wastewater hydration, surface water dryness, unsafe drinking water, seawater quality, and control of ion concentration in industrial production can all be used for inspection and analysis.
Product Parameters
| Power Supply | 12/24VDC |
| Weight | 150g |
| Operating Temperature | 0~40℃ |
| Measuring Range |
0-100mg/L Ionic sensors are more susceptible to interference from other ions in the water and can easily cause membrane head failure. Please purchase with caution ! |
| Measurement Error | ±5%FS (25℃) |
| Resolution Ration | 0.01mg/L |
| Temperature Measurement Range |
0~50℃,Resolution Ratio:0.1℃ (When manually compensating for temperature, it is set to 25℃ by default.) |
| Probe usage cycle | 3~6 months |
| Pressurization | 0.6Mpa |
| Transmitter Line Length | Default 5m (other lengths can be customized) |
| Frequency |
CN470/IN865/EU868/RU864/US915/AU915/ KR920/AS923-1&2&3&4 |
| Mode | OTAA Class A/C |
| Reporting cycle | 5min(Default) |
| Communication Protocol | LoRaWAN, LoRa TDMA Networking |
|
Equipment information (Reference) |
AppEUI:0000000000000001 DevEUI:aaaa202404150001 AppKey:00001111222233334444555566667777 MAC Version: LoRaWAN 1.0.3 |
Product Applications
1. Thief sensitivity: can accurately detect extremely small amounts of ammonia ions, and can immediately capture any changes in concentration.
2. Rapid response: As soon as the ammonia concentration changes, the detection result can be given in a short period of time.
3. Extremely stable: not afraid of environmental interference, can maintain detection accuracy for a long time.
4. Accurate measurement: The error is particularly small, and the data is reliable without any problems.
5. Easy to operate: No need for complex steps, ordinary people can get started and use it.
6. Strong compatibility: able to work together with various water quality monitoring equipment.
NH4+ Ion Transmitter Size and Installation
1.Submerged installation: The lead wire of the equipment is passed through
the waterproof pipe, and the 3/4 thread on the top of the equipment is connected
with the 3/4 thread of the waterproof pipe with raw material tape.Make sure that
the top of the equipment and the equipment lines are free of water.
2. Pipe Installation: Connect to the pipe through the 3/4 thread of the device.
Detailed Images
Common knowledge of NH4+ Ion
How is NH ₄⁺ ion composed? What are the chemical properties?
NH ₄⁺ (ammonium ion) is formed by a cluster of one nitrogen atom and four hydrogen atoms, carrying one positive charge. It will 'release acidity' in water - after reacting with water molecules, it releases hydrogen ions, making the solution acidic. For example, when ammonium chloride dissolves in water, the water becomes acidic, which is also the reason why ammonium nitrogen fertilizers may cause soil acidification.
Where are NH ₄⁺ ions commonly found in daily life?
NH ₄⁺ is very common in nature and production:
Agriculture: Ammonium bicarbonate, ammonium sulfate and other ammonium nitrogen fertilizers contain it, which can supplement nitrogen for plants. However, it is easy to turn into ammonia gas and escape at high temperatures, so attention should be paid when fertilizing;
Water environment: NH ₄⁺ in domestic sewage and industrial wastewater is a key monitoring object (called "ammonia nitrogen"). If the concentration is too high, it will consume oxygen in the water and kill fish and shrimp;
Nitrogen cycle: NH ₄⁺ in soil can be "processed" by microorganisms into nitrite and nitrate, which can be absorbed by plants as nutrients.
How to detect the presence of NH ₄⁺ ions in water?
There are two simple detection methods:
Alkali heating method: Add strong alkali such as sodium hydroxide to the water sample and heat it again. If there is NH ₄⁺, pungent ammonia gas will be released. Use a moist red litmus paper to approach it, and if the paper turns blue, it indicates its presence;
Reagent colorimetric method: Nessler's reagent (containing potassium mercuric iodide) is commonly used in the laboratory. It reacts with NH ₄⁺ to produce a yellow brown substance. The darker the color, the higher the concentration of NH ₄⁺.
What are the hazards of high NH ₄⁺ ion concentration?
NH ₄⁺ "exceeding the standard" will bring two major problems:
Water pollution: Too much NH ₄⁺ in natural water bodies can cause algal blooms (such as "algal blooms"), consume dissolved oxygen, and lead to oxygen deprivation and death of fish;
Soil problem: Long term use of ammonium nitrogen fertilizer can cause the repeated release of hydrogen ions from NH ₄ in the soil, leading to soil acidification and compaction, which can affect crop growth.
Application Scenarios
Aquaculture
Monitor the calcium ion concentration of aquaculture bodies to ensure the health of aquaculture organisms and the stability of water quality.
Seawater Monitoring
Monitoring the concentration of calcium ions in seawater is conducive to marine ecological research and the regulation of seawater aquaculture.
Industrial Wastewater
Monitoring the concentration of calcium ions in industrial wastewater helps with wastewater treatment and achieving compliance with discharge standards.
A:Yes,we can provide you with OEM services and design housings and logos.
3.DO you offer free samples?
A:Sorry,we don't offer free samples.After ordering in bulk,we will deduct the sample fee from the second order.
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