Clinical & Hazardous Waste Incineration & Energy Recovery  |  Scotia Road, Tunstall, Stoke-on-Trent, ST6 4HG

Technology

Robust combustion. Controlled emissions. Useful energy.

Why rotary kiln?

Rotary kilns are robust for diverse, difficult wastes (including high-chlorine or acidic streams) because they provide excellent mixing, controlled residence time and stable combustion conditions – enabling high destruction efficiencies with integrated flue-gas cleaning.

How it works

Process summary

  1. Receipt & segregation – secure transfer, quarantine, and acceptance checks; barcode traceability and load tracking
  2. Feed & primary combustion (rotary kiln) – waste is charged to a rotating kiln that provides mixing and residence time to ensure complete combustion of solids and liquids
  3. Secondary combustion & residence – combustion gases pass to a secondary chamber (afterburner) ensuring required temperatures and residence times for destruction of organics
  4. Flue gas cleaning – multi-stage cleaning (e.g., sorbent injection, ceramic filters, De-NOx units) to meet permit limits; MCERTS continuous monitoring for key pollutants
  5. Energy recovery – heat exchangers recover thermal energy as steam for on-site use and for power generation to meet on-site demand and grid injection
  6. Residuals handling – bottom ash and residues are tested, treated and disposed/recovered in accordance with regulatory guidance

Technical highlights

1.

Rotary kiln for thermal stability and robust operation

2.

Automatic feeding, bin scanning & throughput tracking for operational control and traceability

3.

Fully automated emissions logging (24/7 CEMS) and compliance reporting

FAQs

Is incineration safe?

When designed and operated to permit standards – with modern rotary kilns, secondary combustion and multi-stage flue-gas abatement plus continuous monitoring – incineration achieves secure destruction and low emissions. Independent monitoring and permitting form the backbone of safety and compliance.

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