Introduction

Sulphuric acid is a widely used chemical in the pulp and paper industry. It plays an important role in controlling pH, supporting bleaching reactions, treating fibers, and managing wastewater. Paper manufacturers use sulphuric acid across several production stages to improve process stability, reduce operating costs, and meet environmental rules. Its flexibility and strong reaction properties make it a core chemical in both virgin and recycled paper lines.

Core Chemical Functions

In paper production, sulphuric acid mainly works as a pH controller. It helps keep pulp systems within the right acidity range, usually between pH 6 and 8. This balance is critical for fiber bonding, drainage, and smooth sheet formation.

Sulphuric acid also supports bleaching by helping produce chlorine dioxide, a common agent used to brighten pulp and remove remaining lignin. This method improves brightness without creating too many unwanted byproducts. In addition, sulphuric acid can modify cellulose structure. This improves fiber flexibility and strength, which is important for specialty and high-quality paper. Another key role is wastewater treatment, where the acid neutralizes alkaline effluent before discharge or reuse.

Key Industrial Processes

During pulping, sulphuric acid helps break down hemicellulose and other non-cellulose components. This process separates usable fibers and prepares them for further treatment. In some specialty paper production, pulp is treated directly with sulphuric acid after pulping. This creates paper with higher strength, translucency, and resistance to moisture, often used for envelopes, labels, and greaseproof packaging.

In bleaching operations, sulphuric acid is used to generate chlorine dioxide, which is applied after pulping to improve pulp whiteness. This step is common in kraft pulp and recycled paper lines. Sulphuric acid is also widely used in wastewater treatment systems, where it lowers the pH of alkaline streams coming from digesters and washing stages. This helps mills meet discharge limits and maintain closed-loop systems.

Production Stage Integration

Sulphuric acid is used at different points throughout paper manufacturing. In stock preparation, it adjusts pH during pulping, slushing, and refining. This prevents excessive alkalinity, which can slow drainage and reduce machine efficiency.

During pulp processing, sulphuric acid can treat fibers to improve flexibility and bonding. This is especially important for specialty papers that require smooth surfaces and high strength. At the wet end of the paper machine, careful dosing supports even fiber distribution and stable sheet formation. After pressing and drying, remaining acidic streams are used to neutralize wastewater.

Many large integrated mills now produce sulphuric acid on-site. These systems recover sulfur-containing gases from kraft processes and convert them into high-purity sulphuric acid. On-site production reduces dependence on external suppliers and lowers transport emissions.

Sector-Specific Differences

Sulphuric acid use varies by paper type. Packaging and kraft paper mills use higher volumes, mainly for bleaching and chemical balance control. These mills often operate internal acid recovery systems to reduce emissions and costs.

Tissue and hygiene paper producers use smaller amounts. Their focus is on gentle pH adjustment rather than strong fiber treatment, as softness is a key quality factor. Specialty paper producers apply sulphuric acid more directly to fibers to achieve strength, translucency, or grease resistance.

Recycled paper mills rely on sulphuric acid to manage wide pH swings caused by mixed waste paper inputs. In these systems, the acid is essential for deinking and wastewater neutralization rather than fiber modification. Across Asia Pacific, including Indonesia, rising demand for packaging paper continues to support stable sulphuric acid consumption.

Operational Value and Efficiency

Sulphuric acid improves overall mill efficiency by stabilizing pulp suspensions and improving drainage on paper machines. Better drainage reduces the need for retention aids and lowers energy use during drying. On-site acid production can eliminate external purchases and reduce transport-related emissions by a large margin.

From a cost perspective, sulphuric acid delivers high value despite its low share of total chemical spending. It replaces multiple specialty chemicals and supports chemical recycling in kraft systems. Stable bleaching performance also improves brightness consistency and allows higher machine speeds, increasing output.

Supply Chain and Regulatory Considerations

Most paper mills use commercial-grade sulphuric acid with concentrations around 98%. In Asia Pacific, supply mainly comes from sulfur-burning plants, with bulk deliveries preferred for large mills. Prices follow sulfur feedstock and energy costs, though on-site generation helps reduce exposure to market swings.

Strict safety and environmental rules govern sulphuric acid handling and emissions. Mills must use corrosion-resistant equipment and control dosing carefully. Wastewater discharge limits also drive steady demand for sulphuric acid in neutralization systems. Indonesia’s growing paper sector continues to emphasize reliable and compliant sourcing.

Conclusion

Sulphuric acid remains a vital chemical in paper manufacturing. Its role in pH control, bleaching support, fiber treatment, and wastewater management makes it essential across multiple paper grades. As Asian paper production continues to expand, especially in packaging and recycled paper, sulphuric acid demand is expected to remain steady. Mills that manage dosing carefully, invest in recovery systems, and secure reliable supply will gain better cost control, higher efficiency, and stronger compliance with environmental standards.