Enhancing Environmental Quality in Chemical Industry Parks Through Smart Technology Solutions

Chemical industry parks gather many chemical manufacturers in one area, creating a hub of production activity. While these parks drive economic growth, they also face serious environmental challenges. Wastewater, exhaust gases, and solid waste emissions from manufacturing processes often degrade air quality and pose safety risks. Many parks struggle with limited environmental supervision and weak facilities for treating these pollutants, known as the “three wastes.” Addressing these issues requires a smart, efficient approach that leverages modern technology.

Challenges in Managing Environmental Quality in Chemical Industry Parks

Chemical parks produce various pollutants during manufacture, including sulfur dioxide (SO2), nitrogen oxides (NO, NO2), inorganic acids, and salt mud. These emissions can harm the environment and human health if not properly controlled. Traditional environmental supervision often relies on manual inspections and isolated monitoring equipment, which limits real-time data collection and early warning capabilities.

Key challenges include:

• Insufficient monitoring coverage: Many parks lack comprehensive sensing devices to track pollutants continuously.

• Weak centralised treatment: Facilities for handling wastewater, exhaust gas, and solid waste are often outdated or under-equipped.

• Delayed response: Without real-time data, managers cannot quickly detect or respond to environmental hazards.

• Complex data management: Collecting and analysing large volumes of environmental data manually is inefficient and prone to errors.

  
  

These challenges highlight the need for a solution that improves sensing, data transmission, and analysis to maintain a healthy environment in chemical parks.

How Smart Technology Improves Environmental Management

The integration of IoT (Internet of Things), cloud computing, and big data technologies offers a promising solution. By building a smart data network, chemical parks can monitor environmental pollutants in real time and receive early warnings about potential risks.

Components of the Smart Monitoring Solution

• Sensing devices: These sensors detect pollutants such as SO2, NO, NO2, inorganic acids, and salt mud in the air and water.

• Industrial IoT RTU (Remote Terminal Unit) by ProSense: The RTU collects data from sensors and acts as a communication hub.

• Data transmission: Using 5G, WiFi, and NB-IoT networks, the RTU sends data to a central server.

• Cloud server: The server stores and analyses the data, identifying trends and anomalies.

• User interface: Managers access real-time data and alerts through apps or PC dashboards.

  
  

This system creates a continuous feedback loop that helps maintain environmental quality and supports timely decision-making.

How the System Works in Practice

1. Data collection: Sensors installed throughout the chemical park measure pollutant levels continuously.

2. Data transmission: The RTU gathers sensor data and transmits it via NB-IoT, 5G, or WiFi to the central server.

3. Data analysis: The server processes the data, detecting abnormal pollutant concentrations or trends.

4. Alerts and reporting: Managers receive warnings and detailed reports on their devices, enabling quick responses.

   
   

For example, if SO2 levels rise unexpectedly near a manufacturing unit, the system immediately alerts supervisors. They can then investigate the source, adjust processes, or activate treatment facilities to reduce emissions.

Benefits of Using Smart Monitoring in Chemical Parks

• Improved environmental safety: Real-time monitoring helps prevent pollution incidents before they escalate.

• Efficient resource use: Automated data collection reduces the need for manual inspections and paperwork.

• Better compliance: Continuous tracking supports adherence to environmental regulations.

• Data-driven decisions: Managers gain clear insights into pollutant patterns, enabling targeted improvements.

• Enhanced public trust: Transparent environmental management reassures nearby communities.

  
  

Chemical parks that adopt this technology can maintain cleaner air and water, reduce safety risks, and improve their overall sustainability.

Practical Considerations for Implementation

To successfully deploy this solution, chemical parks should consider:

• Sensor placement: Position sensors strategically near emission sources and sensitive areas.

• Network reliability: Ensure stable NB-IoT or 5G coverage for uninterrupted data transmission.

• Integration with existing systems: Connect the smart monitoring platform with current environmental management tools.

• Training: Equip staff with skills to interpret data and respond effectively.

• Maintenance: Regularly check sensors and RTUs to maintain accuracy.

  
  

By addressing these factors, parks can maximise the benefits of smart environmental monitoring.