Potassium carbonate is also known as potash, pearl ash, salt of tartar, carbonate of potash, and salt of wormwood. It is a white, translucent, odorless, granular or crystalline material that tends to absorb water from the air. It is a mild alkali that has been used since recorded history in the making of soap and glass. Historically, it was derived from the boiled ashes of hardwood trees (hence the term "potash.")
Today, potassium carbonate is prepared for commercial use through the electrolysis of potassium chloride. An estimated 7 million metric tons of potassium carbonate is produced annually in the United States. While still used in the production of glass and detergents, potassium carbonate is also used in the production of fertilizers, photographic chemicals, pharmaceuticals, food products, cement and textiles.1
Most grades of potassium carbonate have an average bulk density of 20 lb/cu ft 2. Caution should be exercised to shield the material from moisture or from contaminants containing moisture, as potassium carbonate is exothermic. Some grades of potassium carbonate carry an HMIS Health rating of 2, meaning hazardous in case of eye contact (irritant), of inhalation (lung irritant) and slightly hazardous in case of skin contact (irritant, sensitizer).3Typically crystalline in form, potassium carbonate may also be micronized. Potassium carbonate is hygroscopic, meaning that humidity and temperature may impact its flow. In granular form, potassium carbonate can be abrasive, so the equipment used to convey it should be able to withstand any potential effects from prolonged contact. If micronized, potassium carbonate can agglomerate in the processing system. Consultation on
If the potassium carbonate has been transported to the facility in bulk bags, the frames used to discharge the bags may still require additional accessories to completely empty the potassium carbonate from the bag. This includes features such as spring-loaded frames that will elongate and stretch the bags as they empty and lighten, removing any pockets of potassium carbonate cornered in the bags. Bag-activating devices are usually effective in agitating the potassium carbonate, dislodging collections of potassium carbonate, and promoting a better flow. Some of these bag-activating devices also serve as an airtight seal between the bulk bag and the receiving hopper.
If the potassium carbonate is packaged in smaller bags, a bag-breaking station with a dust hood and filter cartridges is likely sufficient to support the manual unloading of the material. A pneumatic pulse can be used to clean the filters and return the trapped potassium carbonate back into the receiving hopper.
As the potassium carbonate fills the receiving hopper, the air inside the vessel is forced out. If this air passes through a static filter, the possibility of airborne potassium carbonate dust particles escaping into the surrounding atmosphere is increased, especially if the material is micronized. A dust collector mounted on the discharger frame will contain the potassium carbonate dust inside the conveyance system. This not only lowers the amount of housekeeping efforts necessary, but the collector can also reduce product waste if it is equipped with a reverse pulse jet which pneumatically cleans the filter media, returning the collected potassium carbonate back to the receiving hopper.
The geometry of the feed hoppers is another important aspect in handling
If the potassium carbonate is being pneumatically conveyed into a processing system, the blower used to move potassium carbonate through the air line must be sized to meet the demands of system. Potassium carbonate tends to absorb moisture from the air and may agglomerate, so additional devices may be required to reduce the humidity levels or draw moisture from the potassium carbonate prior to its entrance into the conveyor.
Due to potassium carbonate's crystalline form and its free-flowing nature, a round screw design is commonly used for flexible screw conveying.
Should your potassium carbonate application feature the loading of micronized potassium carbonate into bulk bags, the capacity of the bags can be maximized by use of vibratory densification decks that de-aerate the potassium carbonate as it fills the bags, while the use of load cells will ensure that the bags are consistently filled to the desired weight.
A Flexicon system featuring a bulk bag unloader and flexible screw conveyor improved safety and processing of fertilizers for a UK fertilizer manufacturer.
Flexicon's dust suppression and collection systems ensure proper containment of potassium carbonate throughout the conveyance process.
Consultation with a Flexicon specialist will help you decide if a flexible screw or pneumatic solution best fits your potassium carbonate application.
Flexicon's expert design and engineering staff will weigh each parameter and recommend the best solution for you. Upon request, Flexicon's test lab will simulate your potassium carbonate handling functions before the system is installed in your plant.
Flexicon's product line of advanced flow promotion conveyors, high flow hoppers, deaeration/densification decks and a host of other components and accessories are proven performers that promote flow while reducing degradation, dusting and/or the separation of blends comprised of disparate particles.