Korsnäs white. Environmental Product Declaration

Transcription

1 Environmental Product Declaration Korsnäs white This is an Environmental Product Declaration for Korsnäs White, registered in the International EPD System ( The declaration has been developed based on the results of a Life Cycle Assessment (LCA) and the Product Category Rules for Processed paper and paperboard (PCR 3214). Information and data given in this EPD can be used as upstream data by a customer who will perform a new EPD within the system boundaries given in a related PCR. contact Agneta Rognli, Manager, Business Communication phone +46 (0) agneta.rognli@korsnas.com For further information visit

2 korsnäs AB Korsnäs AB is one of the world s leading producers of virgin fibre-based packaging material, primarily for consumer products. Production is conducted at the production sites in Gävle, Frövi and Rockhammar, all in Sweden. Production capacity amounts to 1.1 million tonnes of cartonboard and paper annually, with integrated pulp production. The range of products includes Liquid Packaging Board, Cartonboard, White Top Kraftliners and Sack- and Kraftpaper. The fibre content in Korsnäs packaging material is based on 100% renewable fibres. Korsnäs operations have an impact on the environment through forestry management, use of resources like energy, chemicals, water and air, and emissions to water and air. Korsnäs industrial operations are fully certified in accordance with ISO 9001:2008 and ISO 14001:2004, Quality and environment management FSC CoC/CW and PEFC CoC, FSC and PEFC Forest management SS , Ed 1, Energy management BRC/IOP, Hygiene management declaration of contents clay coating for excellent printing results and high whiteness TCf bleached fibres for excellent printing results and smoothness tcf bleached fibres reinforced by strong chemical pulp and bleached ctmp for maximum designability, consumer friendly features, grip stiffness and packaging material optimization tcf bleached fibres for reverse side whiteness clay coating for excellent printing results on the reverse side Korsnäs white Korsnäs White is a cartonboard with a unique combination of extreme formability and outstanding print surface. It is coated and made out of 100% virgin fibre (double coated on the top side and single coated on the reverse side). This cartonboard is very well suited for products where design, shape and graphics work together to provide the highest possible visual impact. Health and beauty products, perfume, luxury beverages and exclusive confectionery are packed in Korsnäs White. Korsnäs White is available in grammages from 240 gsm* to 410 gsm. Korsnäs White is produced at the mill in Frövi. *gsm = g/m 2 2

3 System boundaries The international EPD system is based on a hierarchic approach based on the international standards: ISO 9001, Quality management system ISO 14001, Environmental management system ISO 14044, LCA Requirements and guidelines ISO 14025, Type III environmental declarations The systems are divided into three life cycle phases: Upstream: Forestry, production of fertilisers, production of energy wares, production of chemicals, auxiliary products and other raw materials, production of transport packaging. Core: ation of all materials (including wood) to the core processes, production of pulp, production of paper and paperboard, cutting and packing of the products and treatment of waste generated from the production processes. Downstream: Distribution of the product and waste management of transport packaging. Upstream module Plans, energy wares, fertilisation Raw material Raw material Forestry Energy wares Other products and raw material packaging Core module Pulp, paper and board production, coating, cutting etc Waste management of production wastes Downstream module Average converter (not included) Waste management of transport packaging Use of final product (not included) Waste management of final product (not included) Data included data not included 3

4 Environmental Performance The environmental impact of three selected grammages representing a low, medium and high grammage within the product range are presented in the table below. The declared unit is one tonne (1000 kg) of the product delivered at the gate of an average converter/customer in Europe. As additional information, the environmental impact is stated also per 1000 m 2. The carbon footprint (greenhouse gas emissions over the life cycle) is presented in the following diagram as global warming potential 100 years (GWP100) in kg CO 2 equivalents per tonne product. Greenhouse Gas Emissions Korsnäs white 320 gsm kg CO 2 e/tonne upstream core downstream Forestry raw materials energy packaging materials transports to mill board/paper mill distribution and waste transport packaging total total Environmental Impact Korsnäs white upstream Core downstream Total total Korsnäs white 240 gsm kg/tonne kg/tonne kg/tonne kg/tonne kg/1000 m² Global warming CO 2 eq Acidification SO 2 eq Eutrophication PO 4 3- eq Ozone-depletion CFC-11 eq. 2.1E E E E E-06 Photochemical oxidant formation C 2 H 4 eq Korsnäs white 320 gsm Global warming CO 2 eq Acidification SO 2 eq Eutrophication PO 4 3- eq Ozone-depletion CFC-11 eq. 2.0E E E E E-06 Photochemical oxidant formation C 2 H 4 eq Korsnäs white 410 gsm Global warming CO 2 eq Acidification SO 2 eq Eutrophication PO 4 3- eq Ozone-depletion CFC-11 eq. 1.9E E E E E-06 Photochemical oxidant formation C 2 H 4 eq

5 use of resources The following table presents the total resources used for production and distribution of three selected grammages representing a low, medium and high grammage within the product range. Additional information on the use of resources split into the upstream, core and downstream phases is available on request. korsnäs korsnäs korsnäs Natural material resources, renewable white 240 white 320 white 410 unit Biomass m 3 s.u.b/tonne Natural material resources, non-renewable Limestone (calcium carbonate) kg/tonne Inert rock kg/tonne Kaolinite (24% in ore as mined) kg/tonne Sodium chloride (rock salt) kg/tonne Natural Aggregate kg/tonne Gravel kg/tonne Other* kg/tonne Energy resources, renewable Energy, biomass MJ/tonne Energy, hydropower MJ/tonne Energy resources, non-renewable Nuclear energy, Uranium MJ/tonne Crude oil MJ/tonne Natural gas MJ/tonne Hard coal MJ/tonne Other* MJ/tonne *Other resources include the resources used in lower amounts than by 5% of the total. Other Indicators The electricity consumption and waste over the life cycle are specified in the tables below. korsnäs korsnäs korsnäs Indicator, input white 240 white 320 white 410 unit Electricity consumption at manufacturing* kwh/tonne Water use at manufacturing m 3 /tonne Indicator, output Material subject for recycling kg/tonne Hazardous waste kg/tonne Other waste kg/tonne *Electricity use is also presented as Energy resources above. 5

6 Additional Environmental Information: Potential Environmental gain Waste minimisation All Korsnäs products are based on virgin fibres with high strength properties enabling packaging weight to be reduced. Recyclability and recovery Korsnäs White is recoverable through material recycling and energy recovery in accordance with the material requirements in EN 13430:2004 and EN 13431:2004. Waste handling All board and paper products produced by Korsnäs meet the targets specified in the EU s waste management hierarchy within the EU Waste Framework Directive (2006/12/EC) as well as the essential requirements of the EU Packaging Waste Directive 94/62/EC. Biodegradable Korsnäs products are based on pulp consisting of cellulose, hemicellulose and some lignin which will be degraded by microorganisms in nature. The decomposition time required depends on several factors such as temperature, humidity, ph and microbiological activity. Uptake of carbon dioxide in growing forests Carbon stocks are increasing in Swedish forest ecosystems, mainly in the living biomass, due to the fact that the forest growth rate is higher than the harvest rate. The high growth rate is a result of efficient and sustainable forest management. The long-term forest management is to a large extent driven by the demand for round wood from the forest industry. The net sequestration (removal) of biogenic carbon dioxide is calculated based on the share of the net growth of the photosynthesis that is allocated to the board. Future scenarios for harvest rates in Sweden over the next 20 years conclude that the harvest rate will remain significantly lower than the growth rate. Note that that the system boundary settings used to calculate the net sequestration (removal) of biogenic carbon dioxide represent forest management and therefore differ from the product related boundary settings used elsewhere in the EPD. korsnäs korsnäs korsnäs white 240 white 320 white 410 Unit Net sequestration (removal) of biogenic CO 2 in forests kg CO 2 e/tonne Detailed environmental information Below follows a list of detailed emission parameters, some of which are already accounted for in the environmental impacts presented above. More detailed information is available on request. korsnäs white 240 Korsnäs white 320 Korsnäs white 410 Emissions to air* kg/tonne kg/tonne kg/tonne Carbon dioxide, CO 2 fossil NOx as NO Sulphur dioxide, SO Emissions to water* COD Phosphorus as P Nitrogen as N Suspended solids AOX korsnäs white 240 Korsnäs white 320 Korsnäs white 410 Emissions to air * kg/1000 m 2 kg/1000 m 2 kg/1000 m 2 Carbon dioxide, CO 2 fossil NOx as NO Sulphur dioxide, SO Emissions to water* COD Phosphorus as P 0,0023 0,003 0,0037 Nitrogen as N Suspended solids AOX *The environmental impact of these emissions is already presented under environmental impact above. 6

7 Korsnäs climate programme Korsnäs is actively pursuing improvements to minimise the environmental impact. Through an extensive climate programme, Korsnäs has made and will continue to make major investments in resource optimisation in order to reduce the need for fossil fuels. Investments presently implemented or planned are: New evaporation plant in Gävle (2010) Exchange of fossil fuel in lime kiln to biofuel in Frövi (2010) Increase cooperation with the municipality of Lindesberg for local heating (2011) A joint venture with Gävle municipality for a new bioenergy plant to provide district heating (2012) References Eriksson, E., Karlsson, P-E., Hallberg, L., Jelse, K., Carbon Footprints of Cartons in Europe Carbon Footprint Methodology and biogenic carbon sequestration, IVL Swedish Environmental Research Institute, B1924, 2010 Jelse K. & Palm D., 2010, Life cycle assessment of Korsnäs virgin fibre-based packaging materials. IVL Swedish Environmental Research Institute definitions Upstream processes Forestry and production of raw materials and chemicals. Core processes Production at the board and paper mill including transportation of all materials (including wood) to the mill. Downstream processes Distribution of the product to an average customer in Frankfurt and waste management of transport packaging. Global warming potential Global warming is caused by increases in the atmospheric concentration of carbon dioxide (CO 2 ) and other Greenhouse gases that absorb and reflect heat. The global warming potential (GWP) is declared as CO 2 equivalents. Acidification Decrease of the ph value in terrestrial and water systems. Eutrophication Eutrophication is the disturbance of the nutritional balance in the soil and waters due to an added amount of nutrition. In aquatic systems, this leads to increased production of biomass, which may lead to oxygen deficiency and fewer living organisms. Photochemical oxidant formation Hydrocarbons and volatile organic carbons (VOCs) contribute to ground level ozone formation, which has toxic effects on humans and vegetation. Hazardous waste Wastes such as sludge, mud, chemical waste, used oil, soot and radioactive waste from the production of nuclear power are classified as hazardous. PCR Product Category Rules specify Environmental Product Declaration requirements for a specified sector or product category, see Water use The total amount of water used for cooling and the production process at the board and paper mill. Net sequestration of biogenic CO2 in forests In photosynthesis, carbon dioxide from the atmosphere is removed and stored in the growing biomass. In Sweden, the forest growth rate is higher than the harvest rate, and the net removal of CO 2 from the atmosphere is here allocated to the harvested timber. The high growth rate is a result of efficient and sustainable forest management. verifications EPD Programme: The International EPD System Note: EPDs from different programs may not be comparable Registration no: S-P Date of publication: Validity: Valid within the following geographical area: Europe Data reference year: Production of pulp and paper/ board 2008 Production of CTMP 2009 PCR review conducted by: The technical committee of the International EPD System, PCR moderator: Kristian Jelse PCR: Product category rules for processed paper and paperboard (CPC 3214), Version , Swedish Environmental Management Council. Independent verification of the data, according to ISO14025: Accredited or approved by: Det Norske Veritas (DNV) For more information: Ozone depletion Substances such as freon that deplete the protective ozone layer in the stratosphere. 7

8 Korsnäs AB SE Gävle Sweden en