Upload
lora-lee
View
217
Download
0
Embed Size (px)
Citation preview
Practical experience with the implementation of the Solvents Directive in the Czech republic
VOC Workshop, June 2010
Lucie Krejčí
Air Protection Department
Czech legislation transposing the Solvents Directive
• Decree n. 355/2002 Coll., which was amended by decree n. 509/2005 Coll., setting down emission limits and other terms and conditions of the operation of other stationary air pollution sources emitting volatile organic compounds from processes using organic solvents and from petrol storage and distribution
Specifics of the Czech „solvents legislation“in comparison with the Solvents Directive
• the scope of SD was extended to the installations with lower consumption thresholds (authorisation, ELVs, reduction scheme, solvent management plan)
• for some activities stricter ELVs were set (e.g. printing, coating)
• measurement of emissions in waste gases is mandatory also for installations without abatement equipment
Issues we are dealing with
Solvent management plan
• definition of parameter O8 (organic solvents recovered for reuse)
• necessity of the general guidance - operators have difficulties with determination of
various parameters (O1, O5, O6)
Definition of parameter O8 Problem• some operators consider as reuse of O8 also solvents handed
over to third persons
Consequences• lower solvent consumption, lower emission limit values, less
strict obligations
Our approach in the new national legislation• unambiguous definition saying that reuse of organic solvents
is only use of recovered solvents as input in the same activity within the same installation
Reuse of organic solvents
installationrecovered
solvent
inputI1
input I2 (reuse)
O8 (storedfor reuse as
input)
O7
O6installationrecovered
solvent
inputI1
input I2 (reuse)
O8 (storedfor reuse as
input)
O7
O6
Determination of the parameter O1
• operators have problems with calculation of parameter O1 from the result of periodic measurement
• correctness of O1 has significant impact on calculations of fugitive and total emissions
Crucial factors• most significant is typical production capacity/output
of measured technology during the measurement• knowledge of the ratio VOC/TOC in waste gases
• when TOC/VOC ratio is unknown, then can be used equation TOC/VOC = 0,8
Drawbacks of using universal factor 0,8
• most accurate results only for simple hydrocarbons
• for oxygenated solvents factor TOC/VOC is in range from 0,38 (methanol) to 0,62 (acetone), that results in significantly underestimated fugitive emissions
• in case of solvents as toluene or xylenes (TOC/VOC is 0,91) fugitive emissions would be moderately overestimated
Issues we are dealing with
Aplication of reduction scheme
• used rather rarely so far
• recently is by local authorities preferred monitoring based on emission limit values and measurement
• necessity of the guidance for operators
• uncertainties on how to elaborate reduction scheme for activities other than coating???
Issues we are dealing with
Classification of some types of activities
• e.g. lamination vs. production of composites (fibre reinforced plastics, FRP)
• resolved after the EC issued the guidances
Problem• according to current Czech „solvents
legislation“: production of composites (FRP), where styrene resins are used, is classified as lamination
• ELV 30 g/m2 is for many of these installations very difficult to comply with (especially when composite product is made of more layers)
Our aproach in the new national legislation
• separate activity category for production of composites
• consumption is set according to the input amount of VOCs, not organic solvents (styrene reacts in the polymeric reaction – is not a solvent)
• ELVs: - concentration ELV 85 mg/m3 TOC - ELV of total emissions of VOCs related to input amount
of materials containing VOCs (resins, gelcoats, topcoats, solvents used for cleaning of equipment)