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.

Subject: Environmental Science / Industrial Processes Difficulty: IELTS Listening Section 4 Good morning. Today, we’re going to explore the lifecycle of paper, focusing on two interconnected stages: primary production from virgin materials, and secondary production through recycling. This is a critical topic, as the global demand for paper products is projected to rise by nearly 40% over the next decade.

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.

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.

The third stage is . Here, the slurry passes through screens of varying mesh sizes to remove contaminants like staples, plastic films, and glue. Following this, a centrifugal cleaning process spins the pulp to remove heavier objects, such as paper clips and glass fragments.

Let’s begin with . The raw material is, of course, wood. Softwood species like pine and spruce are preferred because of their long cellulose fibres, which produce strong paper. The process starts with debarking and chipping the logs. These chips are then subjected to either a mechanical or chemical pulping process.

Now, let’s shift to , which currently supplies around 40% of the world’s paper fibres. The process is far less energy-intensive. Recycling one tonne of paper saves approximately 4,100 kilowatt-hours of electricity – enough to power the average home for six months.

About the author

paper production and recycling ielts listening

Muhammad Qasim

Muhammad Qasim is an English language educator and ESL content creator with a degree from the University of Agriculture Faisalabad and TEFL certification. He has over 5 years of experience teaching grammar, vocabulary, and spoken English. Muhammad manages several educational blogs designed to support ESL learners with practical lessons, visual resources, and topic-based content. He blends his teaching experience with digital tools to make learning accessible to a global audience. He’s also active on YouTube (1.6M Subscribers), Facebook (1.8M Followers), Instagram (100k Followers) and Pinterest( (170k Followers), where he shares bite-sized English tips to help learners improve step by step.

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Paper Production And Recycling Ielts Listening | FRESH 2026 |

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.

Subject: Environmental Science / Industrial Processes Difficulty: IELTS Listening Section 4 Good morning. Today, we’re going to explore the lifecycle of paper, focusing on two interconnected stages: primary production from virgin materials, and secondary production through recycling. This is a critical topic, as the global demand for paper products is projected to rise by nearly 40% over the next decade. 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

The third stage is . Here, the slurry passes through screens of varying mesh sizes to remove contaminants like staples, plastic films, and glue. Following this, a centrifugal cleaning process spins the pulp to remove heavier objects, such as paper clips and glass fragments.

Let’s begin with . The raw material is, of course, wood. Softwood species like pine and spruce are preferred because of their long cellulose fibres, which produce strong paper. The process starts with debarking and chipping the logs. These chips are then subjected to either a mechanical or chemical pulping process.

Now, let’s shift to , which currently supplies around 40% of the world’s paper fibres. The process is far less energy-intensive. Recycling one tonne of paper saves approximately 4,100 kilowatt-hours of electricity – enough to power the average home for six months.