The most common problem with unloading bulk bags is dusting. Frequently, bulk bag discharging operations are a dusty mess. At best, this results in a housekeeping problem. More importantly, product loss and quality control issues can arise. And, the worst case is a safety issue when dealing with ingredients that pose a health or explosion risk.
Financial Impact Of Bulk Bag Dusting
Ingredient yield. Every particle of ingredient that escapes the bulk bag discharging process and ends up on the floor reduces ingredient yield and increases cost. However, thinking of dusting at the particle level implies little financial impact. Perhaps the following example will identify the potential magnitude of the issue.
Let's examine a bulk bag unloading operation that discharges one, 2,000 lb bulk bag every hour. Discharging takes place during one eight hour shift per day, five days per week, 48 weeks per year (allowing for scheduled maintenance and unscheduled production down time). Finally, let's say the product has a bulk density of 40 lb/cu ft and costs 50 cents per lb.
If only one pound of ingredient ends up on the floor every time a bulk bag is discharged the annual cost of reduced yield is $960.00 - almost the cost of a one ton bulk bag of ingredient.
To put this in perspective, one pound of our example ingredient would fit in a cube with 3 1/2" sides - not much of a spill size-wize, but it can add up quickly.
If you increase the number of bags unloaded per year, or the price of the ingredient or the amount of product lost from dusting, the financial impact increases significantly.
Labor. Clean up time obviously increases as dusting increases. Something not so obvious is operator productivity. Unloading bulk bags can be the worst job in the plant if it is a dusty, messy process. Productivity drops as a result.
Safety. The cost of safety problems can be immense. If you discharge ingredients that are health hazards or whose dust can, when concentrated and exposed to a suitable source of ignition, can explode, great care must be taken to minimize dusting to the greatest extent possible.
Bulk Bag Dusting Solution - 3 Components
The solution to dusting involves bulk bag design, discharging equipment design and operator training.
Bulk Bag Design
Some ingredient can sift through the bulk bag fabric. This can occur when the bag is being handled or when it is being discharged. Coating the inside of the bag or bulk bag liners solve this problem.
Bulk Bag Discharger Design
Dusting can occur at the onset of product flow, during discharge and at the end of the discharge cycle when the bag is being removed from the unloader. Your equipment must be designed with specific features to contain dust according to when the problem arises in the discharge cycle. Read this blog post to learn more: Bulk Bag Dusting - What Causes It.
Operator Training
It is common to see operator's using bulk bag discharging equipment in a manner that does not follow the manufacturer's instructions. This can be a leading contributor to excessive dusting. Also critical to minimizing dusting are the procedures to load the bulk bag into the discharging equipment, initiate flow and remove the empty bag.
Operator training starts with well thought out Standard Operating Procedures and its benefit is sustained by constant reinforcement and supervision. Read this blog post to learn more: Training - Critical To Bulk Bag Discharging Success.
Discharging Hazardous Ingredients
Containing dust that is either a health hazard or explosive is obviously critical. The consequences of not doing so are potentially devastating.
Bulk bags may be required that include specialized liners made form material that will eliminate gas transfer to the atmosphere. Long outlet spouts on both the bag and liner may be required to properly mate with specialized bulk bag discharging equipment.
Bulk bag unloading equipment designed to provide total containment almost always includes a means of sealing the bulk bag/liner outlet spout to a metal downspout that is connected to downstream equipment. This eliminates dust emissions during the onset of ingredient flow and throughout the emptying of the bag. However, when the bulk bag is empty and must be removed, dust particles can become airborne when the outlet spout is unsealed and the empty bag is removed from the discharger.
To prevent this secondary emission of dust particles, the bulk bag outlet sealing or clamping mechanism can be enclosed in a chamber that is maintained under negative pressure. This prevents dust from escaping into the plant environment when the bag outlet is retied and the bulk bag is prepped from removal and disposal.
Some designs include a way to completely evacuate the bulk bag - collapsing it in the process - while it is still attached to the bulk bag discharger. This makes it much easier to handle the empty bulk bag when it has been removed from the discharger.
Read this blog post to learn more: Handling Hazardous Ingredients In Bulk Bags.