Recovery, including recycling, of plastics containing brominated
flame retardants
( traduction
française)
Foreword:
Brominated
flame retardants perform an essential role in helping plastics meet and even surpass the
most stringent fire safety standards in Electrical and Electronic (E&E) equipment. It
is becoming increasingly important for policymakers to define a regulatory framework to
manage the recovery of materials contained in E&E equipment in an environmentally
sound manner. There is a perception that brominated flame retardants (BFRs) in some way
affect adversely the potential to recover plastics. In fact there exists a wide range of
data and practical experience demonstrating that the end-of-life management of plastics
containing BFRs is fully compatible with an integrated waste management concept, in line
with the waste policy of the EU. Such reports suggest that BFRs in E&E equipment will
not prevent the recovery, including recycling, of materials currently in use. In fact any
move to restrict the use of BFRs in E&E equipment would preclude the development of
products and processes which may provide the best solution for future recovery and
recycling goals.
Mechanical
Recycling:
Several
studies have shown that plastics containing BFRs can be recycled. First studies from the
BAYFORREST project [1], sponsored by the Bavarian State, demonstrate that plastics
containing BFRs can meet the strict PBDD/F limit values of the German Dioxin
Ordinance" (Chem.-Verbots-VO) in the recyclate if recycling is done properly.
Further independent studies sponsored by the industry on the recycling of BFR plastics are
currently in process. Additionally, industry is sponsoring a program to test existing data
which show that potential brominated dioxin/furan (PBDD/F) exposure at the workplace
during recycling is of no concern. There is evidence from BAYFORREST tests that PBDD/F
workplace exposure is insignificant during recycling. The results of the BIA report [2]
came to comparable conclusions regarding the processing of plastics containing BFRs. The
University of Erlangen [3] and AG CYCLE [4] are currently working on identification and
separation processes for plastics containing BFRs to enable the separate treatment of this
type of plastics on an operational scale. Moreover, the copiers industry convinced the
German Environmental Agency (UBA) to delay eco-label criteria discriminating against BFRs
precisely because BFR plastics were preferable from the point of view of recyclability
[5].
Feedstock
Recycling:
An APME
report [6] concluded that feedstock recycling (depolymerisation & hydrogenation) of
plastics from WEEE is a promising option and an environmentally sound method for
recovering BFR plastics. These tests have been carried out at the Veba Oel AG, KAB in
Bottrop/Germany on a commercial scale (15.000 t/y). The bromine industry is currently
undertaking a feasibility study to determine the economic and technical viability of
bromine recovery from plastics containing BFRs (e.g. printed circuit boards, housings).
This would close the bromine loop, ensuring the sustainability of bromine production.
First workgroup meetings have already taken place with the bromine industry, electronic
equipment manufacturers and the recycling industry.
Energy Recovery:
Incineration tests, pyrolysis [7] and combustion studies [8] have demonstrated
that waste from E&E equipment can be safely added to todays municipal solid
waste (MSW) to generate in an environmentally sound manner useful energy. PBDD/F formation
is not altered by the presence of the bromine-containing waste, and remains well within
emission standards in these processes. The OECD [9] came to the same conclusion regarding
the insignificance of dioxin/furan formation when incinerating BFRs. The OECD noted that
the highest formation rates for brominated dioxins/furans from PBDEs during laboratory
experiments [10] were associated with low temperatures and pyrolitic conditions. Modern
waste-to-energy facilities are specifically designed to avoid these conditions. A report
from the European Commission [11] came to the same results. This is reflected in the
reality that several MSW incinerators (e.g. in Germany) have the permission to co-combust
of WEEE plastics and MSW.
Conclusion:
Any presumption that BFRs make plastics recovery more complex requires
justification as it could be argued that any plastics additive makes plastics recovery a
more complicated process. The fact is that without additives plastics would no longer be
able to be used in the vast majority of applications. BFRs add value to E&E plastics
by enabling E&E equipment manufacturers to go beyond minimum fire safety standards in
order to enhance consumer safety levels. (It should be noted that in certain cases such as
TV sets, the standards are appreciably lower than those in force in the US and Japan.) The
widespread use of BFRs in E&E appliances over the last ten years is all the more
reason to ensure that these high value plastics can clearly be identified, thus avoiding
their disposal and enabling their separation for recovery, including their reuse and
recycling.
Date: Brussels, 18 January 1999
References:
[1] Rieß
et al. (1998): Analysis of flame retarded polymers and recycling materials. Organohalogen
Compounds, Vol. 35, 443-446.
[2]
Hauptverband der gewerblichen Berufsgenossenschaften (1997): Dioxine am Arbeitsplatz.
[3] van
Eldik et al. (1997): Bewertung und Optimierung von Verfahren zum Recycling
flammgeschützter Kunststoffe aus der Elektrotechnik. BAYFORREST-Report 7, p.65-74.
[4] CYCLE
(1998): Sekundärrohstoffe aus IT-Produkten. Umweltmagazin, 3/98, p73.
[5] Blue
Angel Criteria Document for copiers RAL-UZ 62 p.6 §3.2.4.
[6] APME
(1997): Feedstock recycling of electical & electronic plastics waste.
[7]
Christill et al. (1996): Drehrohrpyrolyse als Verwertungsverfahren für Elektro-Altgeräte
aus dem Investitionsgüterbereich, VDI Berichte, 1288, p321-333.
[8] APME
(1997): Electrical & electronic plastics waste co-combustion.
[9] OECD
(1998): Report on incineration of products containing brominated flame retardants.
[10] UBA
(1989): Sachstand PBDD/PBDF.
[11] European Commission (1995): Techno-economic studies on the reduction of
industrial emissions to air, discharges to water, and the generation of waste from the
production, processing and destruction (by incineration) of brominated flame retardants.
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