In contrast, , most commonly the Kraft process, uses a cocktail of sodium hydroxide and sodium sulphide to dissolve the lignin that binds the cellulose fibres together. This produces stronger, higher-quality paper. However, it recovers only about 50% of the wood’s mass, and it requires substantial energy and chemical recovery systems. A single large mill can consume up to 500,000 tonnes of wood annually.
However, fibres cannot be recycled indefinitely. Each cycle shortens and weakens the cellulose chains. On average, a paper fibre can be reused between before it becomes too short to form a coherent sheet. At that point, the residue is often converted into lower-grade products like egg cartons or tissue paper, or used as a source of biofuel. paper production and recycling ielts listening
Stage four is , arguably the most complex step. Air bubbles are forced through the pulp while a chemical – a surfactant – attaches to the ink particles. The bubbles rise to the surface, forming a frothy layer of ink that is skimmed off. This process can remove up to 90% of printing ink. In contrast, , most commonly the Kraft process,
The fifth stage is , where the recovered fibres are beaten to swell and roughen them, improving their ability to bond. Finally, stage six: paper making , where the cleaned pulp is diluted, spread onto a wire mesh screen to drain water, pressed between rollers, and then heated to dry. A single large mill can consume up to
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