How do you measure a material too light, dry, and fluffy for ultrasonic sensors? Install a VEGA radar sensor.
Wood flour is a key ingredient in manufacturing particle board. The coarser flakes are used to form the wood core of the material, while the fines are used to create the surface.
As part of its production process, D&R Henderson, a particleboard producer, stored the very light, very dry powder in a 21-metre silo.
However, there was a problem. Because wood flour is so light, fluffy, and dry the traditional methods of measuring the level just simply didn’t work.
Sheeshendra Deo, Electrical Manager at D&R Henderson said finding a sensor fit for the job was a process of trial and error.
The company first tried using an ultrasonic sensor, which emits acoustic pulses to detect the level in a vessel. The light nature of the wood flour meant the pulse was being absorbed, which made the readings unreliable. On top of this, the ultrasonic sensor was affected by the airborne dust, further attenuating the signal.
“We tried a lot of sensors that just didn’t work,” he said. “The material had an extremely low dielectric, which meant it was a poor conductor of electric current.”
“Our product is also very dry. Normally these sensors depend on having some moisture there to find an accurate reading.”
Jim Curnow, a business development manager at VEGA Australia said radar systems need at least some conductivity to work.
“The wood flour had such a low dielectric, it was basically invisible to the sensor,” he said.
The company tried several sensors, but none of them were able to accurately detect the material. One potential solution was to install load cells, but that would be prohibitively expensive and could be affected by the wind and other factors.
Attaining an accurate reading in the silo was vital for D&R Henderson. If the company didn’t know how much wood flour it had, it could lead to lost production while refilling the silo. Since the product supplements natural gas in the burners (which run the wood dryers), the gas cost can be huge.
Eventually, the manufacturer began testing the VEGAPULS 69, one of VEGA’s most advanced radar sensors. Wood flour was one of the materials VEGA claimed it could accurately measure.
Curnow said the 80 gigahertz radar was different to the others the customer had tried, as it has a much higher dynamic range, meaning that it was a lot more sensitive, enabling the unit to receive and process very small echoes from this type of material.
“The VEGAPULS69 has a dynamic range of 120 decibels. All of the other radars at the time were using around 85 decibels for measurement,” he said.
“The decibel scale is logarithmic. That means going from 85 to 120 isn’t just a 25 per cent increase – it’s over 1000 times more sensitive.
“That means the sensor can get a much better return signal from a low dielectric material and makes it for all intents and purposes immune to dust and buildup.”
One feature that helps protect the system from dust and buildup is the lack of a horn. Traditional Radar sensors often use a horn to focus the microwave beam into the right direction. The VEGAPULS 69 uses a lens antenna rather than a horn, removing an area where material could gather.
The sensors require no maintenance and can be set up and left alone. Integrated Bluetooth technology means the VEGAPULS69 can be programmed and integrated from the ground by site staff using their mobile phones, without the need to climb a 21-metre ladder with a laptop to make a program change.
Deo said VEGA made sure to take samples of the wood flour from the site to see if the sensors would work.
“They took various samples, and we were confident that it would work after seeing the results,” he said.
“We then began to replace all of the other sensors across the site with ones from VEGA and have close to 10 now installed.”
Curnow said the consistency of VEGA’s products is key to its success. This is why the company has released the VEGAPULS 6X, a radar sensor that can handle almost any application, no matter the medium.
This new radar level sensor VEGAPULS 6X now combines the best of the previous 80 GHz, 26 GHz and 6 GHz sensors VEGAPULS 61, 62, 63, 64, 65, 66, 67, 68 and VEGAPULS 69, in one device.
“They’re all German made to very high standards. I’ve been to the factory and seen the level of quality control that goes into every single step of the process,” Curnow said.
“It’s really high tech and impressive, and it means that everything we produce will operate as it should.”