The e-commerce industry is booming. In 2023, global retail e-commerce sales reached an estimated USD 5.8 trillion, and predictions suggest that this figure will grow by a further 56 per cent in the years to come.
Such aggressive growth, of course, drives up the need for paper and cardboard packaging. And as living standards worldwide evolve, the demand for personal hygiene products like tissues, toilet paper and wipes also increase.
Needless to say, the pulp and paper industry is thriving and, in Europe alone, the paper and pulp industry uses approximately 1,200 paper machines, each of which produces an average of 80,000 tonnes of paper a year.
Reducing water usage
Unfortunately, however, the biproduct of this high-volume production is high-volume waste. In fact, producing just one piece of A4 paper requires 10 litres of water, as reported by The World Counts.
The paper manufacturing process involves several crucial stages, including pulping, refining, forming, pressing, drying and finishing.
The pulping step, in particular, requires large volumes of water for fibre separation, transportation and dilution of chemicals. Here, wood fibres are soaked in water to break them down into a pulp, which is then used to produce paper.
The pulp is then poured onto a wire mesh screen to drain water away, in a process called forming. This step transforms the pulp into a continuous sheet of paper on a paper machine, where the remaining fibres form a wet mat that is pressed to remove even more water.
These two steps alone help to visualise how much water is used during the production process and that’s why efficient technologies, like closed-loop water systems, are essential for minimising water usage in paper manufacturing.
In a closed-loop water system, sensors continuously monitor water quality as it flows through various stages of the papermaking process. Based on sensor data, control systems then adjust treatment processes, like filtration and purification, ensuring optimal water quality for reuse.
Robotics may also be employed for tasks like equipment maintenance to enhance system efficiency and sustainability.
Energy consumption
Paper manufacturing also requires extensive heat due to the large amounts of water that need to be evaporated during the drying process. According to IEA, drying accounts for 70 per cent of the energy use in this sector.
Heat pumps are an excellent solution for reducing heat waste. They transfer heat from one place to another using a refrigerant. In paper manufacturing, they can reuse latent heat from the drying process to produce steam for further drying.
In fact, heat pumps are so effective that the European Heat-Pump Association (EHPA) and the Confederation of the European Paper Industries (Cepi) have teamed up to lay the groundwork for heat pumps to be integrated in Europe’s paper mills.
This comes as a joint EHPA-Cepi working group calculated the potential energy savings and estimated that heat pumps can lead to a reduction in energy demand for drying by 50 per cent, as well as potentially reducing emissions via fuel substitution.
What’s more, it is also believed that 65 per cent of process heat in the European paper industry can be supplied by heat pumps that make use of the waste heat sources inside production processes.
There is a wealth of energy and money to be saved, and that’s before realising that the European paper and pulp industry currently uses about 1,200 paper machines. Yet the role automation can play in the industry meeting its environmental requirements cannot be overlooked, especially at these volumes.
And you don’t have to take our word for it, with Deskera stating that automation can reduce energy consumption in the paper industry by up to 20 per cent.
Be it sensors to monitor water flow rate, temperature, pressure and quality in closed-loop systems or programmable logic controllers (PLCs) to manage the operation of heat pumps, manufacturers must lean on a parts supplier they can trust.
If you would like assistance finding the right automation part for your pulp and paper production process, please get in touch via the Foxmere website.