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Chapter 08 — Wastes from the manufacture, formulation, supply and use of coatings, adhesives, sealants and printing inks Non-Hazardous

EWC Code

08 05

Wastes not otherwise specified in 08

EUR-Lex Commission Decision 2000/532/EC — Official Journal L 226, 06/09/2000

Annual Volume

Small — residual catch-all chapter

Valorisation Range

Isocyanate waste management cost €200–500/t; disposal cost varies by stream composition

Primary Route

Controlled hydrolysis (water deactivation)

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Waste Classification

EWC 08 05 contains only one listed sub-code: 08 05 01* (waste isocyanates). This catch-all exists for isocyanate-containing wastes arising from coating, adhesive and sealant operations that are not covered by the specific sub-codes in 08 01–08 04. Isocyanates (MDI, TDI, HDI, IPDI) react violently with water, generating CO₂ and forming polyurea, which can block waste containers and create pressure.

Waste isocyanates arise from polyurethane foam manufacturing trim and rejected foam, two-component coating waste, unreacted MDI/TDI from adhesive formulation, and excess spray foam from construction applications. Isocyanates are highly reactive and toxic — MDI has a WEL of 0.02 mg/m³ and is a sensitising substance classified H334. Waste must be deactivated before disposal to prevent exothermic reactions in waste storage.

Deactivation by controlled hydrolysis with excess water (50:1 water:isocyanate ratio) produces carbamic acid and ultimately CO₂ and amine — the amine-containing hydrolysate is then managed as aqueous hazardous waste. Solid polyurethane foam waste (fully cured, non-reactive) is classified under 07 02 xx, not here. The 08 05 code is specifically for reactive isocyanate-containing waste.

Typical Generators

Isocyanate polymer producers (MDI, TDI)
Formaldehyde-based resin manufacturers
Multi-sector coating and adhesive operations

Disposal & Valorisation Routes

Established valorisation pathways for EWC 08 05, ranked by economic value and market depth. Controlled hydrolysis (water deactivation) is the primary route.

Controlled hydrolysis (water deactivation)

Primary

Liquid isocyanate waste slowly added to large excess of water (minimum 50:1 by weight) in ventilated reactor. Exothermic reaction produces CO₂ and amine-containing suspension. Amine hydrolysate treated by biological effluent treatment (nitrification/denitrification) to remove amine nitrogen.

High-temperature incineration

Secondary

Solid or gel isocyanate waste (partially reacted) incinerated at ≥1100°C with a minimum 2-second residence time. Combustion products include CO₂, H₂O, NOₓ and HCN — scrubbing with alkaline solution required. Incineration preferred for mixed isocyanate/solvent waste streams.

Specialist polyurethane recycling

Backstop

Off-spec polyurethane prepolymer (partially reacted, not fully cured) assessed for glycolysis recycling potential — PU dissolved in glycol at 180–200°C to recover polyol fraction. Applicable to rigid PU foam waste with consistent composition. Outputs: recovered polyol for re-formulation.

These are the established routes for EWC 08 05. Which one your stream qualifies for depends on its composition, volume and region.

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NACE Receiving Industries

Primary & secondary off-takers

01
Manufacture of plastics in primary forms

MDI/TDI producers manage isocyanate process waste; polyurethane manufacturers handle foam trim

02
Other specialised construction activities

Spray polyurethane foam applicators generate excess and off-spec foam waste containing reactive isocyanate

03
Treatment and disposal of hazardous waste

Specialist operators with controlled hydrolysis or incineration capacity for isocyanate waste

04
Recovery of sorted materials

PU foam chemical recycling (glycolysis) operators for non-reactive polyurethane

Source: NACE Rev.2 — Eurostat, 2008

Regulatory Context

Key legislative frameworks governing EWC 08 05 classification, transport, and treatment.

REACH Annex XVII — Diisocyanate training

From 24 August 2023, all industrial and professional users of diisocyanates must complete mandatory training. Isocyanate waste handling operations require risk assessment, local exhaust ventilation and documented emergency procedures for water reaction incidents.

ADR — Isocyanate waste transport

Liquid isocyanate waste classified ADR Class 6.1 (toxic) and reacts with water — additional UN 2206 (Isocyanates, toxic, n.o.s.) classification. Packaging must be completely dry; pressure venting prohibited. Drums must be checked for partial reaction (gel formation) before transport.

Directive 2008/98/EC — Reactive waste handling

Isocyanate waste (08 05 01*) is always hazardous — no mirror entry exists. Water-reactive property (H4) and acute toxicity (H6) apply. Mixing with water-containing waste or acids in storage prohibited. Emergency response information for H2S and HCN must be available at storage site.

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Industries That Use This Waste

Sectors that valorise EWC 08 05 as an input material or secondary raw material.

Explore EU waste flows — Waste Atlas

Visualise 17 years of E-PRTR industrial facility data. See how EWC 08 05 and related waste streams flow across European industries and sectors.

View Atlas

Source: EUR-Lex Commission Decision 2000/532/EC · NACE Rev.2 — Eurostat 2008

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