-
Help! Ethylene Oxide Leaks Still Hard to Prevent? ZONEWU LoRaWAN Sensor Makes Risks Disappear in Seconds
Nov 11 , 2025
The "Invisible Killer" in Sterilization Finally Meets Its Wireless Lifesaver Ethylene Oxide (ETO) ensures medical devices are sterile, pharmaceuticals are safe, and food stays fresh—but it’s also a hidden killer. Exposure to just 10ppm of ETO can cause nausea, and long-term contact increases cancer risk. Yet traditional monitoring methods are a disaster: manual testing exposes workers directly to ...
Read More
-
ZONEWU Wireless LoRaWAN Hydrogen Sulfide (H₂S) Sensor: The "Invisible Guardian" of Safety
Nov 14 , 2025
Introduction: The "Invisible Threat" of H₂S Calls for Professional Protection In many industries such as petrochemicals, sewage treatment, and mining, hydrogen sulfide (H₂S) is an extremely dangerous gas—it is colorless, highly toxic, and can cause discomfort even at low concentrations, while high concentrations can be life-threatening in a short time. Due to its characteristics of "invisible, det...
Read More
-
Breathe Easier: This LoRaWAN SO2 Sensor Is a Game-Changer for Air Quality Monitoring
Nov 21 , 2025
Breathe Easier: This LoRaWAN SO2 Sensor Is a Game-Changer for Air Quality Monitoring Imagine stepping outside, taking a deep breath, and knowing exactly what’s in the air you’re inhaling. For city dwellers, industrial workers, and eco-conscious parents, that peace of mind has long felt out of reach—especially when it comes to sulfur dioxide (SO₂), a toxic gas that hides in plain sigh...
Read More
-
English Version: Industrial-Grade LoRaWAN SO₂ Sensors: The Green Safety Barrier Empowering Global Industry
Nov 21 , 2025
English Version: Industrial-Grade LoRaWAN SO₂ Sensors: The Green Safety Barrier Empowering Global Industry 1: LoRaWAN Technology Addresses Core Pain Points in Industrial Monitoring In industrial scenarios, LoRaWAN gas SO₂ Sensors monitoring has long been plagued by three major challenges: difficult deployment, poor data transmission, and high maintenance costs. Traditional wired sensors ...
Read More
-
Targeting Industry Pain Points and Leading Monitoring Innovation: LoRaWAN C2H4 Sensors Set New Benchmark for Industrial Compliance
Dec 30 , 2025
Against the dual backdrop of the sweeping Industry 4.0 wave and increasingly stringent compliance requirements, the gas monitoring sector is undergoing a profound transformation from "passive response" to "proactive prevention and control." With its breakthrough technological advantages, the LoRaWAN C₂H₄ (ethylene) sensor not only accurately resolves the core pain points of traditional monitoring ...
Read More
-
How to prevent hydrogen leakage? LoRaWAN hydrogen sensors monitor accurately to safeguard safety in multiple scenarios
Jan 07 , 2026
With the large-scale application of hydrogen energy in fields such as energy storage, industrial production, and new energy, the safety risks posed by hydrogen leakage have become increasingly prominent. The LoRaWAN hydrogen sensor launched by ZONEWU, based on the three-electrode electrochemical detection principle, integrates high-precision collection, wireless transmission, and intelligent early...
Read More
-
How to select industrial gas sensors?
Jan 13 , 2026
In industrial environments, gas sensors serve as the "first line of defense" for safety and environmental protection. Especially in hydrogen sulfide detection scenarios, professional equipment is indispensable. As an industrial-grade device based on electrochemical sensing technology, the RS485 hydrogen sulfide transmitter has become a standard configuration for numerous on-site applications. Choo...
Read More
-
NDIR vs.Electrochemical Sensors: A Technical Comparison and Scenario Selection Guide for SO₂ Monitoring
Jan 15 , 2026
In the field of industrial environmental monitoring, the accurate detection of sulfur dioxide (SO₂) is a critical step in safeguarding ecological security. As two mainstream technical solutions, non-dispersive infrared (NDIR) and electrochemical sensors demonstrate distinct competitive advantages in different application scenarios, based on their unique technical mechanisms. Technical Mechanisms: ...
Read More
