Chemical Technology
Article | July 20, 2022
POLYMER BUYERS outside northeast (NEA) and southeast Asia (SEA) have a big opportunity to save millions of dollars on procurement costs during the rest of this year through purchasing more from the two regions.The opportunity has arisen because I believe that NEA and SEA polymer prices will remain very cheap relative to most of the world until at least the end of 2021.
NEA comprises China, Japan, Taiwan and South Korea. Our definition of the SEA region is Cambodia, Indonesia, Malaysia, Myanmar, the Philippines, Singapore, Thailand and Vietnam.NEA and SEA producers can also make a lot of money by constantly monitoring and acting on strong arbitrage opportunities in other regions.
As supply disruptions in the US look likely to continue, Europe and South & Central America seem particularly good opportunities for both buyers and producers.Before we discuss why I see NEA and SEA remaining cheap relative to most of the rest of the world until at least the end of the year, let us consider in more detail the size of the prize, starting with the resin buyers.
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Chemical Technology
Article | July 14, 2022
NICE WORK, if you get can get it. A trucking company in Fort Worth, Texas, is offering to pay experienced drivers $14,000 a week – $728,000 a year – as the US struggles with a nationwide shortage of truckers or lorry drivers.
This reminds me of perhaps an apocryphal tale, from the height of the last Australian mining boom. Before iron ore prices collapsed in late 2014, there was a story about workers at mining site road junctions who operated manual “Stop and Go” signs. They were said to be earning more than Australian dollar (A$) 200,000 a year.
Before you pack in your job as, say, a petrochemicals sales manager and head to Texas or mine sites in Western Australia, there is the risk that when you arrive at the door of your new prospective employer, the bubble might have already burst. This is assuming we are in bubble conditions.The pressure is clearly building in petrochemicals and other commodity markets as prices in some regions remain at record highs or continue to rise.
Today’s prices are the results of shortages of commodities supply (for example in petrochemicals, an outcome of the US winter storms), very strong demand and supply chain disruptions.I am beginning to believe that the latter is the biggest reason for commodity price inflation which is feeding through into sharp rises in the cost of finished goods – and a lack of goods availability.
It is delivering and manufacturing enough stuff that seems to be at the heart of today’s problems due to shortages of everything from container freight space and semiconductors to wooden pallets, tin cans, metal drums, cardboard – and US truck drivers.
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Chemical Technology
Article | June 6, 2022
An enzyme-mimicking catalyst opens a new route to important organic molecules such as glycolic acid and amino acids from pyruvate, report researchers in Japan. Moreover, the new catalyst is cheaper, more stable, safer and more environmentally friendly than conventional metal catalysts used in industry, they note, adding that it also displays the high enantioselectivity required by the pharmaceutical industry.
“On top of these advantages, our newly developed organic catalyst system also promotes reactions using pyruvate that aren’t easily achievable using metal catalysts,” says Santanu Mondal, a PhD candidate in the chemistry and chemical bioengineering unit at Okinawa Institute of Science and Technology (OIST) Graduate University, Okinawa, Japan, and lead author of a study recently published in Organic Letters.
“Organic catalysts, in particular, are set to revolutionize the industry and make chemistry more sustainable,” he stresses.
The researchers use an acid and an amine mixture to force the pyruvate to act as an electron donor rather than its usual role as an electron receiver (Figure 1).
Effectively mimicking how enzymes work, the amine binds to the pyruvate to make an intermediate molecule. The organic acid then covers up part of the intermediate molecule while leaving another part that can donate electrons free to react to form a new product.
Currently, the organic catalyst system only works when reacting pyruvate with a specific class of organic molecule called cyclic imines.
So, the researchers now are looking to develop a more-universal catalyst, i.e., one that can speed up reactions between pyruvate and a broad range of organic molecules.
The challenge here is to try to make the electron-donating intermediate stage of pyruvate react with other functional groups such as aldehydes and ketones. However, different catalysts create different intermediates, all with different properties. For example, the enamine intermediate created by the researchers’ new reaction only reacts with cyclic imines. Their hypothesis, currently being investigated, is that creation of other intermediates such as an enolate, if possible, would achieve a broader pyruvate reactivity.
In terms of cost, the researchers note that a palladium catalyst used in similar reactions is 25 times more expensive than their organic acid — which also is made from eco-friendly quinine.
In addition, they believe scale-up of the process for industrial use definitely is possible. However, the researchers caution that the current amine-to-acid-catalyst loading ratio of 1:2 probably would need to be optimized for better results at a larger scale.
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Chemical Technology
Article | June 21, 2021
“At Anglo-American, we’re really focused on finding the
best ways to attract the most talented people in the
industry and effectively equipping our existing workforce
based on what they need today and what the future
will mean for their careers. We’re also committed to
providing learning opportunities that lead to growth and
development in the communities in which we operate.
Our people are a strategic advantage. We want to
ensure that continues to be the case as the mining industry
evolves and faces more disruption.
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