DUST CONTROL
Dust generated in construction and mining has significant environmental and mechanical impacts. Airborne dust particles contribute to air pollution, affecting human health and ecosystems by reducing air quality and depositing harmful materials on soil and water sources. In machinery and electronics, dust accelerates wear and tear, clogging filters, reducing efficiency, and increasing maintenance costs. Fine dust infiltrates engines, bearings, and circuit boards, causing overheating and premature failure. Prolonged exposure can lead to equipment malfunctions, reducing productivity and increasing operational risks. Effective dust control measures, such as water suppression, air filtration, and protective enclosures, are essential to minimize these impacts.
MOBILE FOG CANONS
Spraying Distance 30m to 150
Fog cannons are advanced dust suppression systems that use fine water mist to capture airborne dust particles in construction, mining, and industrial sites. By spraying micro-droplets, fog cannons increase particle weight, causing dust to settle faster and reducing air pollution. They are highly efficient, covering large areas with minimal water consumption, making them ideal for arid regions like GCC countries, where water conservation is crucial. Modern fog cannons use automated systems with real-time monitoring, remote control, and weather sensor integration for optimized efficiency. Some models employ electrostatically charged mist for improved dust capture, enhancing safety, reducing environmental impact, and prolonging machinery lifespan.
SOIL AMENDMENT TECHNOLOGIES
Soil amendment technologies for dust control involve spraying specialized materials onto the ground to stabilize surfaces and reduce airborne dust. Common types include polymer-based stabilizers, which form a protective crust to bind soil particles, and hygroscopic salts like calcium chloride, which attract moisture to keep dust suppressed. Organic binders, such as lignosulfonates, enhance soil cohesion while being environmentally friendly. Enzyme-based treatments improve soil structure by promoting natural bonding. Nano-coatings and biodegradable adhesives offer long-lasting solutions with minimal ecological impact. These technologies are widely used in construction, mining, and arid regions, improving air quality, reducing water use, and enhancing road durability.