Chinese scientists turn black coal by-product into white paper
Professor Zhang Meiyun (centre, seated) and her team inspect samples of paper made using fly ash, a waste product from coal-fired power stations. Photo: Shaanxi University of Science and Technology
More than 2,000 years after the invention of paper in China, the country’s scientists are claiming another first – a breakthrough that replaces its key ingredient with the dirty waste from coal-fired power plants.
The result – which is almost indistinguishable from paper made from wood pulp – achieves a more than 90 per cent match to pure whiteness, despite being made with the black fly ash produced from burning coal.
The
process has passed stringent tests in real production lines and is
ready for mass application, with some Chinese paper mills now able to
replace nearly half the wood fibres in their products with the chimney
waste, according to scientists involved in the government-funded
research programme.
The breakthrough has come nearly 10 years after Professor Zhang Meiyun, from the Shaanxi University of Science and Technology, and her colleagues first proposed that fly ash could be used as a filler in paper.
Professor Zhang Meiyun in 2010 when the proposal to research the use of fly ash in paper making was presented to the Chinese central government. Photo: Shaanxi University of Science and Technology.
The new product addresses two problems – the environmental impact of the global industrial demand for timber and how to dispose of millions of tonnes of fly ash each year.
Paper mills are responsible for more than 40 per cent of the timber felled globally for industrial use which “has devastating impacts on some of the world’s most ecologically important places and species”, according to the World Wide Fund for Nature (WWF).
Because most forests in China are protected, the country’s paper mills
source wood pulp mainly from Canada, Russia, the United States and other
countries endowed with vast forests. China has the world's largest
paper industry, with paper and pulp production reaching nearly 100
million tonnes annually – more than all European countries combined.
China is also the world's largest electricity producer, collecting about 700 million tonnes of fly ash each year, according to government statistics. About 70 per cent of this waste – a by-product of coal combustion composed of fine particles containing various minerals such as calcium and silicon – is used by the construction industry but the remainder has had nowhere to go, until now.
To
Zhang and her colleagues, the fly ash was a promising candidate as a
wood pulp substitute because its chemical and physical properties were
similar to industrial additives – such as talcum powder and kaolin –
already used in paper production.
They soon realised it was easier said than done. “The first sheets that came out in our lab looked grey,” Dr Song Shunxi, another scientist in the programme, said. “We had a Cinderella but the paper industry wanted a Snow White. It didn’t work out very well.”
China has the world's largest paper industry, with paper and pulp production reaching nearly 100 million tonnes annually – more than all European countries combined. Photo: Xinhua
The problem was the presence in the fly ash of unburnt carbon particles which reduced the paper’s brightness. Without
a cost-effective method to remove these particles, the project was
stuck. Datang Power, one of the largest state-owned electricity
producers in China, joined the programme with a potential solution.
Many coal beds in China contain aluminium, and the chemical process to extract aluminium from fly ash was known to have a whitening effect. At an aluminium factory next to a Datang power plant in Inner Mongolia, the scientists found a suitable fly ash and brought the sample back to their lab in Xian.
The sheet turned bright, just as they had predicted, but it was too brittle and inflexible for use. According to Song, this latest problem was caused in part by the size and shape of the fly ash particles, and it took the scientists and engineers several years to fine-tune the processing of raw fly ash to achieve the perfect grains.
“Plant fibre is organic, fly ash is not. Blending them together is difficult, and there are lots of gaps to fill between the fibres,” Song said. “Nobody wants to use paper on which the ink spreads or which has dust coming off.”
There was no simple solution to this problem, the scientists found, because improving one property of the material could easily lead to the degradation of another.
It was not until 2014 that the team found an effective formula that addressed all elements in the papermaking process – from the atomic structure of the different materials, to the amount of water added to the pulp, to the brand of adhesive chemicals added to bind the different components.
The technology worked perfectly in the laboratory but no factory wanted to try it. To use it, production lines required modification and workers and engineers needed time to learn and become familiar with the process. There was also concern that if the technology failed, a plant could miss its annual production target.
“Thankfully we had the government behind us,” Song said. With financial support and liaison from the authorities at numerous levels, the scientists were able to test and improve the technology over several years at paper mills in Shaanxi, Zhejiang, Henan and Shandong provinces.
The researchers did not give details of their support from the authorities, except to say most of the funding came from the central government in Beijing, with additional help from provincial and city-level governments. Feedback was positive, with production cost savings ranging from eight to 15 per cent, according to Song.
There
were still some factors limiting the application of the process across
the country, including the location of some paper mills far from
coal-fired power plants. The greater the distance, the higher the costs
of transporting the fly ash.
The quality of the coal also varied from one location to another, so the whitening and blending formula would need to be adjusted on a case-by-case basis.
“We will continue to improve the technology until one day it can be used in every paper mill,” Song said.
A
senior researcher at the State Key Laboratory of Pulp and Paper
Engineering in Guangzhou, in the southern province of Guangdong, said
that China had solved all the major technical problems in making paper
with fly ash.
Several research teams had come up with innovative solutions using different strategies, said the researcher, who asked not to be named because of his role on a national committee which reviews these technologies.
“The cost of using fly ash is only about one tenth of importing pulp,” the scientist said.
The main competitor of fly ash, however, is not wood but other inorganic fillers such as the kaolin clay from ceramic industry.
“The technology must prove itself profitable and sustainable. It must be competitive even without the support of the government,” he said.
Source: SCMP, by Stephen Chen
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