VOC Emissions Control from Industrial and Commercial Sources Dr. Miriam Lev-On The LEVON Group, LLC SP7: Current Control Strategies for Industrial Emissions BAQ 2006, Yogyakarta, Indonesia, December 2006
Outline Why Control VOCs ? What are the trends of VOC Emissions? How can we control VOCs and Air Toxics ? Large Stationary Sources Small Urban and Commercial Sources Examples Summary
Why control VOCs ? VOCs are precursors to Ozone (smog) formation Ozone is readily formed in the atmosphere by the reaction of VOCs and NOx in the presence of sunlight VOCs are a blend of hundreds of volatile organic compounds some of which are chemically reactive, Examples: ethylene, propylene, formaldehyde, xylene Some of the VOCs are known Hazardous Air Pollutants (HAPs), or Air Toxics Examples: benzene, toluene, perchlorethlyene, methylene chloride
What are the Primary VOC Emitters? VOCs are emitted from a variety of sources, motor vehicles, chemical plants, refineries, other industries, consumer and commercial products, architectural coatings, natural (biogenic) sources. Typical allocation for man-made sources - Specifics will vary by location
U.S. VOC Emissions Trend ( ) Source: USEPA Trends Report, 2005
UK VOC Emissions Trends (1970 – 2002)
Asia VOC Emission Trends by Country Source: WRI Earth Trends Data
Sources of VOC Emissions (1995) Source: IIASA, 2004, RAINS simulation
VOC Emission Trends and Projections in East Asia (Mt VOC) Source: IIASA, 2004, RAINS simulation
Hierarchy of Emission Control Strategies Reduce the volume, or eliminate emissions, of volatile organics including toxics by process changes, substitution of materials, or other modifications ; Enclose systems or processes to eliminate emissions; Collect, capture, or treat these pollutants when released from a process vent, stack, storage, or fugitive emissions sources; Design equipment, implement work practice, or operational standards requirements for operator training or certification
Stationary Source Controls SourcesIFC Recommended Techniques (*) Fugitive emissions from Process Equipment Leaks Design modification, new process components Leak Detection and Repair (LDAR) Pressure balancing during cargo loading Handling of chemicals in open vats and mixing processes Substitution of less volatile substances Storage of materials with specially fitted roofs Collection of vapors through air extractors with possible treatment with selected devices Collection of VOCs and treatment by destructive devices Catalytic incinerators of exhaust gases exiting paint spray booths, ovens, and other process operations Thermal Incineration of gas stream at 700 º to 1,300 º C Enclosed Oxidizing flares that are used to convert VOCs into CO 2 and H 2 O by way of direct combustion (*) IFC Draft General EH&S Guideline, September 2006
Example: Korea ’ s Paint VOC Content Standard The Korean standard for VOC in paint went into effect in July 2005 The standard calls for low- VOC, eco-friendly paint, containing 5-7% less VOCs The standard applies to paint for construction and for cars, Accounts for ~41% of total VOC emissions in the metropolitan areas The new standard is expected to reduce 8,000 tons of VOCs in 2006
Example: VOC content in Adidas Footwear Manufacturing Corporate Commitment since 2000 to reduce VOC emissions in footwear factories in Asia due to solvents used in manufacturing process Target: an average of 20 grams/pair of shoes Footwear suppliers have reduced VOC emissions from 140 grams/pair in 2000 to 20.5 grams/pair in 2005 Graphical depiction of monthly average for supplier from China, Vietnam and Indonesia (~ 95% of supply)
Summary It is important to reduce VOC emissions in order to minimize smog formation and population exposure to potentially toxic compounds, It takes political will as well as technical know-how to develop VOC reduction measures that are appropriate for the myriad of sources - large and small, Product reformulation and emission containment have proven to be the most successful VOC reduction strategies, The Air & Waste Management Association is in a position to help by providing technical information exchange; training courses; engineering manuals; and specialty conferences