Industrial odors pose major challenges that keep intensifying as population growth pushes residential and commercial developments expanding towards industrial sites. Although each industrial facility works differently, Its ventilation, inputs, processes, and wastewater treatment procedures all play a part in the creation and release of emissions and odors. In response, the whole industry is seeking ways to find solutions for industrial sites that face the challenges of eliminating regulated emissions, and even nuisance odor complaints. Fortunately, industrial odor control solutions from providers like BossTek come in the forms of chemical, physical and biological solutions. Below is a further look at some of these systems.
Use of misting and dosing systems
These methods use different blends of essential oils, organic compounds, and surfactants to encourage the decomposition and absorption of odors. They also convert the molecules into non-volatile compounds. In most cases, these systems are installed during the initial stages of a construction project. They can eliminate both surface-based odors and airborne odors.
Chemical additives and sprays
Today, countless chemical methods are employed to treat various compounds generated during industrial processes. These chemicals are used so they bind to the odorous compounds generated thus preventing them from being released into the atmosphere. When it comes to using chemical additive systems, you need to add the chemicals into water affected by odorous compounds. These chemicals work by eliminating the odorous compounds though they’re in the water phase. The chemical sprays are designed to centralize industrial odorous air in a chamber. Then, the spray chemicals trap and remove bad odors in the air before its released as clean air from the vessel. While chemical systems are effective in some settings, they, however, have to be frequently replenished and at great cost. Also, most of these chemicals are detrimental to humans, which can put your operators at risk.
These are characteristically vessel-based systems use to gather odorous air into a central treatment location. Adsorbent media or porous activated carbon traps the offending compounds that impact air as runs through the container. Following this process, clean air is released and the odorous composites remain stuck in pores within the adsorbent media. At peak performance, adsorbent filters deliver clean air. Nevertheless, the performance of these odor control systems weakens as the deposits pile up in the filter. The adsorbent substances should be cooled, and cleaned before they are reactivated — or replaced — resulting in downtime and additional cost.
Ozone is also another name for O3, a highly volatile form of oxygen that functions as a powerful oxidizer. Ozone odor control is seen to be effective as an odor and emission control solution for low air pollutants. While ozone is readily available, it degrades to more stable O2 atoms in uncontrolled environments within microseconds. Because of its instability, it necessitates careful and costly transportation and storage. Furthermore, ozone rarely reduces more than 80 percent of odorous gases in the environment. That makes it insufficient for many uses.
Successfully implemented odor and emission control brings facilities into compliance with the rules as well as puts them back in good standing with their neighbors. Every industrial facility is different, and the processes are different too. Choose an odor control method that works best for your process and is compliant with the regulations of your region.