Polyaluminium Chloride (PAC) in Paper Mill Wastewater Treatment

Paper Mill Wastewater: Why It Is Difficult to Treat

Paper mill wastewater is one of the most complex industrial effluents in the water treatment industry. Its composition varies widely depending on raw materials, pulping methods, and paper grades.

Typical Characteristics of Paper Mill Wastewater

• High suspended solids (SS)
  Fibers, fines, fillers (calcium carbonate, kaolin)
• High COD and BOD
  Lignin, hemicellulose, starch, sizing agents
• High color (chromaticity)
  Especially from recycled paper and pulping processes
• Unstable water quality
  Large daily and seasonal fluctuations

These characteristics make simple sedimentation ineffective. A high-performance coagulant is required at the front end of the system.

industrial wastewater treatment chemicals

Why Polyaluminium Chloride Is Preferred in Paper Mills

Compared with alum or ferric salts, Polyaluminium Chloride (PAC) offers clear advantages for paper wastewater.

Key Reasons Paper Mills Choose PAC

1. Stronger charge neutralization
   PAC contains polymerized aluminum species that neutralize negatively charged fibers and colloids more efficiently.
2. Better fiber and filler capture
   PAC forms dense flocs that trap fine fibers and fillers, reducing fiber loss.
3. Lower sludge volume
   Compared to alum, PAC produces less sludge with higher solids content.
4. Stable performance under variable conditions
   PAC works well even when pH, temperature, and load fluctuate.

From a cost-control perspective, PAC also helps mills recover fibers and reduce chemical consumption downstream.

How PAC Works in Paper Mill Wastewater Treatment

PAC mainly functions at the primary treatment stage, before biological or advanced treatment.

Step-by-Step Working Mechanism

1. Charge Neutralization

Paper fibers and fillers carry negative charges. PAC releases highly charged aluminum polymers that rapidly neutralize these charges.

2. Adsorption and Bridging

PAC adsorbs onto fiber fines, fillers, and colloidal organic matter, forming larger agglomerates.

3. Floc Formation and Separation

The flocs formed are:

• Dense
• Fast-settling
• Easy to remove by sedimentation or DAF

This significantly reduces SS, COD, and color before biological treatment.

Typical Treatment Processes Using PAC in Paper Mills

PAC can be applied in different process designs depending on wastewater characteristics.

1. Coagulation–Sedimentation Process

Application scenario:
High SS wastewater from pulping and paper machines

Process flow:
PAC dosing → Rapid mixing → Flocculation → Sedimentation tank

Performance:

• SS removal: >85%
• COD reduction: 25–40%

2. Coagulation + DAF (Dissolved Air Flotation)

Application scenario:
Wastewater with light fibers and fillers that do not settle easily

Advantages:

• Faster separation
• Better fiber recovery
• Smaller footprint

PAC improves bubble–floc attachment efficiency, making DAF systems more stable.

3. PAC + PAM Combined System (Most Common)

In most modern paper mills, PAC alone is not enough.

Why Combine PAC with PAM?

• PAC: charge neutralization
• PAM: polymer bridging and floc strengthening

Result:

• Larger flocs
• Faster separation
• Lower PAC dosage
• Improved sludge dewatering

PAC and PAM combination

PAC Dosage in Paper Mill Wastewater Treatment

Typical Dosage Range

• PAC: 50–200 mg/L
• PAM: 0.5–3 mg/L

⚠️ Exact dosage depends on:

• Fiber content
• COD level
• pH and alkalinity
• Type of paper produced

Why Jar Tests Are Essential

Paper wastewater composition changes frequently. Jar testing allows operators to:

• Determine optimal PAC basicity
• Avoid overdosing
• Minimize sludge volume
• Reduce operating cost

Common Problems in Paper Mills and PAC Solutions

Problem 1: Poor SS Removal

Cause: PAC dosage too low or insufficient mixing
Solution: Increase dosage gradually and improve rapid mixing intensity

Problem 2: High Color in Effluent

Cause: Organic colloids not fully destabilized
Solution: Use medium-to-high basicity PAC and extend flocculation time

Problem 3: Excessive Chemical Cost

Cause: PAC used alone
Solution: Introduce low-dose anionic PAM to reduce total PAC usage

Problem 4: Sludge Difficult to Dewater

Cause: Flocs too loose
Solution: Optimize PAC–PAM ratio and sludge conditioning

Economic and Environmental Benefits of Using PAC

From a procurement perspective, PAC delivers long-term value, not just short-term treatment results.

Economic Benefits

• Reduced fiber loss
• Lower sludge disposal cost
• Reduced biological treatment load
• Stable compliance with discharge standards

Environmental Benefits

• Lower aluminum residuals
• Less secondary pollution
• Improved water reuse potential

How to Select the Right PAC for Paper Mills

When purchasing PAC, paper mills should focus on:

• Al₂O₃ content
• Basicity (%)
• Water solubility speed
• Compatibility with PAM

High-basicity PAC is usually preferred for high-SS and high-COD paper wastewater.

Conclusion

Polyaluminium Chloride (PAC) is a core chemical in paper mill wastewater treatment. Its strong coagulation ability, adaptability, and cost-effectiveness make it an ideal solution for removing fibers, fillers, COD, and color at the primary treatment stage.

When combined with PAM and supported by proper jar testing and process control, PAC helps paper mills achieve:

• Stable effluent quality
• Lower operating costs
• Improved environmental compliance