Flaman Rentals Blog

Kenaston, Sk Has New Grain Cleaning Technology

Posted by April Basset Feb 03, 2017

Spectrum Grain Solutions, located in Bashaw, Alberta, has purchased a BoMill TriQ grain sorter that has been installed in Kenaston, Sk. The Swedish-made BoMill TriQ has the capabilities to sort grain based on the interior make-up of each kernel, rather than the exterior appearance. It uses NIT (Near Infrared Transmission) technology to analyze each kernel and thus can sort grain based on fusarium, protein, vitreousness, seed quality and falling number at a speed of 25,000 kernels per second.
For a full article click here.
 
Learn more about the new technology in BoMill products on our Flaman Grain Cleaning website.
 
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Posted in Uncategorized | Tagged with BoMill Grain Sorting Grain Cleaning New technology Flaman Grain Cleaning | More articles by April Basset


BoMill TriQ: A Fusarium Management Solution

Posted by April Basset Mar 25, 2015

The newest technology being brought to the Canadian agriculture industry has benefits for everyone. BoMill, a Swedish company, offers a management solution to the fusarium problem that’s been a growing concern in Western Canada. The BoMill TriQ is a grain sorter that sorts wheat, durum, and barley by protein, vitreousness, and fusarium. Sheldon Ball, the sorter specialist at Flaman, says, “It’s the only product we’re aware of that sorts individual kernels by fusarium.” BoMill increases the accuracy of other processes by analyzing the chemical make-up of kernels, not just the colour, and it does it by individual kernel, instead of in a batch.

WHY BOTHER?
FUSARIUM
Fusarium is a fungus that produces mycotoxins during the infection process. Mycotoxins are toxic and are not destroyed during processing such as milling, baking, malting, or ethanol production.*  The BoMill TriQ grain quality sorter will sort the yields and improve the quality for a top selling dollar. More importantly, the sorted yield will be a safer product for final consumption.

VITREOUSNESS
The TriQ is also an excellent tool to clean grain for seed. Its patented technology (read about the NIT below) analyzes the ability a kernel has for germination, or its vitreousness. By setting a fraction to sort by vitreousness, you can get a yield that is 100% capable of germination. Talk about bumper crop potential!

HOW IT’S DONE – FEATURES OF THE BOMILL TRIQ
NIT Technology

NIT (Near Infrared Transmission) Technology is a patented sensory system that utilizes infrared light to test the chemical make up of a kernel. This new technology, found only in the BoMill IQ and TriQ products, allows kernels to be sorted according to their germination capabilities (vitreousness), fusarium, and protein content. This technology is capable of yielded a 100% vitreous output, which translates to guaranteed better yield if used for seed. It also means healthier product for consumption by people and animals.

Individual Kernel Analysis
Although other machines exist that focus on individual kernel sorting, such as color sorting, this is the first machine that sorts individual kernels by fusarium. Other methods will take a batch of grain and sort by weight, making heavier and lighter kernels separate to the top and bottom. This is a good method, however the individual kernel analysis yields a higher accuracy.

Wireless Monitoring
The graphical user interface makes it possible to control the sorting using any device with a browser, such as a PC, tablet, or smartphone. Due to its user-friendly design, it makes the training sessions intuitive and time efficient.

WHERE CAN YOU LEARN MORE?
Flaman Grain Cleaning is the licensed dealer in Canada for BoMill’s grain sorters. “With Flaman as our Distributor in Canada we will have a strong partner,” says Karin Wehlin, CEO BoMill AB. “Flaman’s long presence in the grain cleaning market and know-how as well as established service organization is important for our future”. You can contact one of Flaman’s staff members to get more information by email or by calling 1-888-435-2626. You can also visit the product page for the BoMill TriQ and IQ products.

*Website: http://www.agriculture.gov.sk.ca/fusarium-head-blight
 


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Posted in New Products | Tagged with grain cleaning fusarium grain sorting bomill triQ wheat cleaning durum barley optical sorting | More articles by April Basset


The secret behind cleaning grain with indent cylinder machines

Posted by Roy Ritchie Aug 22, 2012

The indent cylinder machine is designed primarily to separate grain by kernel length. It separates long kernels from shorter ones. The cylinder itself is a thin-walled tube with indents formed on the inside to the shape of a hemisphere. These indents are known as pockets.

By using indent pocket size, the kernels that fit into the pocket are lifted up and dropped into a trough that runs the entire length of the cylinder, while the longer kernels slide off and tail out the end. Indent pocket sizes are measured in 64ths of an inch similar to screen sizes used on screen machines. These cylinders are case hardened to give them a longer life span. Cylinders not hardened would wear out very quickly.

The cylinder always lifts up the shorter product that fits into the pocket and always tails off longer kernel; shorter from longer! A smaller pocket like a #13 will lift small weeds like buckwheat while tailing out wheat, while a larger pocket like a # 20 will lift wheat and tail out wild oats. Using combinations of different indent pocket sizes can do very fine separations of these products.

Indents use a combination of pocket size, centrifugal force, friction and gravity to make separations possible. By using different pocket sizes, particles of a certain size are able to be lifted off. The speed that the cylinder turns creates friction and centrifugal force that hold the particle in place. As the cylinder turns, that particle is lifted to a point where gravity takes over and allows the kernel to fall into a collection trough.

Speed of the cylinder is critical: too fast and the kernel is carried too far; too slow and gravity drops the product before reaching the collection trough.  Usually indent speeds are between 42 and 58 RPM. One or two RPMs can make a huge difference in separation and capacity.

The receiving trough catches and carries the lifted kernel to the end of the machine and discharges them into a spout. This trough is adjustable in order to make the cut or separation at the exact point of the particle size variation desired. The separation of the products usually happens between 60 and 45 degrees ahead of top dead centre.

Due to the fact that various seeds have different moisture, surface conditions, and specific gravity it is important to be able to hold the cylinder at a constant speed. Any fluctuations in speed will affect the actual trough adjustment and therefore the separations.

While feed flow and constant cylinder speed are critical, the unit is no better than the person running it. If you take time to understand the operation of the unit and allow a reasonable time after making adjustments you will find that the indent cylinder, regardless of make will do a good job for you. It will do this with minimal attention and service for a long period of time.

We at Flaman have several models and makes of indents available for sale. We are here to help.

This is one man’s opinion...


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Posted in Uncategorized | Tagged with grain cleaning indent cylinder grain kernel Flaman grain sorting | More articles by Roy Ritchie