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High-temperature, energy-efficient ceramic coatings for refractories—no longer “theoretical” technology—are being used successfully in kiln and furnace applications to reduce energy consumption, improve temperature uniformity, reduce maintenance, and increase production while improving product quality.
Technicians, engineers, and plant personnel that make up Global Energy Management (GEM) teams at each of Corning’s fiber and cable facilities worldwide identified and executed energy conservation steps to reach this milestone.
Industry 4.0, also known as the Industrial Internet of Things (IIoT), is proving to be a revolutionary trend that will shape the industrial landscape in the coming years. Adding intelligence to physical objects has never been as easy and inexpensive as it is today.
Across the board, the ceramic industry has benefitted from three significant pieces of technology introduced to us over the last 45 years: high-velocity combustion, low-mass kiln cars, and digital control technology. First came high-velocity combustion, which gave us high rates of convective heat transfer. It delivered improved temperature uniformity, faster cycles, fuel savings and increases in “A” grade recovery, as well as many other documented secondary benefits.
While buzzwords like IIoT and Industry 4.0 are everywhere these days, very little is actually being done by manufacturers to capitalize on the various available technologies.
August always seems to be such a chaotic month in our household. Between home improvement projects, vacation schedules, and back-to-school plans, it can be difficult to limit our focus and prioritize what’s really needed vs. what would be nice or fun to do. Everything that needs to be taken care of is important to a certain extent (the lawn isn’t going to mow itself!), but what if the weather’s beautiful and the kids want to go to the pool? The sheer volume of options can become overwhelming.
Wider channels in extra-large kilns allow an increase in the number of incoming tile and therefore boost kiln output compared to other machines of the same length.
The roller kilns in the XXL family, which feature extra-large channels from 3,500-3,850 mm wide, are the biggest in the Sacmi single-layer kiln range. Wider channels allow an increase in the number of incoming tile and therefore boost kiln output compared to other machines of the same length. For example, the XXL 385 kiln lets manufacturers position a row of four 800 x 800 mm porcelain tile (with subsequent squaring), three 1,000 x 1,000 mm tile or two 1,600 x 3,200 mm slabs.
AMETEK Land has published a new “Global Services” brochure as part of the company’s continued commitment to assist customers in achieving the best operating performance from AMETEK Land instruments and systems.
For the purposes of this discussion, a “fast firing” is defined as a firing duration from ambient to ambient within 180 min or less. The primary benefits of implementing a fast-firing protocol include: significantly reducing energy consumption per payload, reduced scrap and re-fire, lowered labor costs, shorter production lead times, and more reliable product consistency.
Many, if not most, of our new products over the years have come about after we’ve been approached by a current or potential customer with an application requirement that required some R&D on our part. In this case, an existing customer needed to scale up, but in a way that ensured reproducibility of the outcomes they were getting from their Deltech benchtop furnaces. A small-scale tunnel kiln seemed to offer a good solution.