Environmental impact of paper

A pulp and paper mill in New Brunswick, Canada. Although pulp and paper manufacturing requires large amounts of energy, a portion of it comes from burning wood residue.

The environmental impact of paper is significant, which has led to changes in industry and behaviour at both business and personal levels. With the use of modern technology such as the printing press and the highly mechanised harvesting of wood, disposable paper has become a cheap commodity. This has led to a high level of consumption and waste. With the rise in environmental awareness due to the lobbying by environmental organizations and with increased government regulation there is now a trend towards sustainability in the pulp and paper industry.

Issues

The production and use of paper has a number of adverse effects on the environment which are known collectively as paper pollution. Pulp mills contribute to air, water and land pollution. Discarded paper is a major component of many landfill sites, accounting for about 35 percent by weight of municipal solid waste (before recycling).[1] Even paper recycling can be a source of pollution due to the sludge produced during de-inking.[2] According to a Canadian citizens organization, "People need paper products and we need sustainable, environmentally safe production."[3] The amount of paper and paper products is enormous, so the environmental impact is also very significant. It has been estimated that by 2020 paper mills will produce about 400,000,000 tons of paper and paperboard per year, so great efforts are needed to ensure that the environment is protected during the production, use and recycling/disposal of this enormous volume of material.

Pulp and paper is the third largest industrial polluter to air, water, and land in both Canada and the United States, and releases well over 100 million kg of toxic pollution each year.[4]

Worldwide, the pulp and paper industry is the fifth largest consumer of energy, accounting for four percent of all the world's energy use. The pulp and paper industry uses more water to produce a ton of product than any other industry.[5]

Deforestation

Main article: Deforestation

Worldwide consumption of paper has risen by 400% in the past 40 years, with 35% of harvested trees being used for paper manufacture. Plantation forest, from where the majority of wood for pulping is obtained, is generally a monoculture and this raises concerns over the ecological effects of the practice.

In the United States, paper is often made of small trees thinned from forests at intervals of around fifteen years in the southern U.S. Thinning improves overall forest health in that it helps prevent infestations of pests such at beetles and decreases fire risk. Wood sold for pulp to make paper is worth significantly less than wood sold for lumber,[6] so large trees are almost never used to make paper. Most paper mills are unable to take large trees.

Deforestation is often seen as a problem in developing countries but also occurs in the developed world. Woodchipping to produce paper pulp is a contentious environmental issue in Australia.[7] In the 1990s, the New Zealand government stopped the export of woodchips from native forests after campaigning by environmentalists.[8]

Over 6.5 million trees were cut down to make 16 billion paper cups used by US consumers only for coffee in 2006, using 4 billion US gallons (15,000,000 m3) of water and resulting in 253 million pounds of waste. Overall, North Americans use 58% of all paper cups, amounting to 130 billion cups.[9][10]

Air pollution

Nitrogen dioxide (NO2) sulfur dioxide (SO2) and carbon dioxide (CO2) are all emitted during paper manufacturing. Nitrogen dioxide and sulfur dioxide are major contributors of acid rain, whereas CO2 is a greenhouse gas responsible for climate change.

Water pollution

Wastewater discharges for a pulp and paper mill contains solids, nutrients and dissolved organic matter such as lignin. It also contains alcohols, and chelating agents and inorganic materials like chlorates and transition metal compounds. Nutrients such as nitrogen and phosphorus can cause or exacerbate eutrophication of fresh water bodies such as lakes and rivers. Organic matter dissolved in fresh water, measured by Biological Oxygen Demand (BOD), changes ecological characteristics. Waste water may also be polluted with organochlorine compounds. Some of these are naturally occurring in the wood, but chlorine bleaching of the pulp produces far larger amounts.[11]

The pulp and paper industry is also associated with important emissions of heavy metals. In Canada, for example, this industry is the third source of lead (Pb) emissions to water[12]

Recycling the effluent (see black liquor) and burning it, using bioremediation ponds and employing less damaging agents in the pulping and bleaching processes can help reduce water pollution.

Discharges can also discolour the water leading to reduced aesthetics. This has happened with the Tarawera River in New Zealand which subsequently became known as the "black drain".[13][14]

Waste

Paper waste accounts for up to 40% of total waste in the United States, which adds up to 71.6 million tons of waste per year in the United States alone.[15] Paper waste like other wastes faces the additional hazard of toxic inks, dyes and polymers that could be potentially carcinogenic when incinerated, or commingled with groundwater via traditional burial methods such as modern landfills. Paper recycling mitigates this impact, but not the environmental and economic impact of the energy consumed by manufacturing, transporting and burying and or reprocessing paper products.

Wood pulping process

Chlorine and chlorine-based materials

Chlorine and compounds of chlorine are used in the bleaching of wood pulp, especially chemical pulps produced by the kraft process or sulfite process. Plants using elemental chlorine produced significant quantities of dioxins.[16] Dioxins are persistent organic pollutants that are generally recognized among the most toxic human-released pollutants in existence. Elemental chlorine has largely been replaced by chlorine dioxide and dioxin production very significantly reduced.[17][18]

As a result, from the 1990 onwards the use of elemental chlorine in the delignification process was substantially reduced and replaced with ECF (Elemental Chlorine Free) and TCF (Totally Chlorine Free) bleaching processes. In 2005, elemental chlorine was used in 19–20% of kraft pulp production globally, down from over 90% in 1990. 75% of kraft pulp used ECF, with the remaining 5–6% using TCF.[19] A study based on U.S. Environmental Protection Agency (EPA) data concluded that "Studies of effluents from mills that use oxygen delignification and extended delignification to produce ECF (elemental chlorine free) and TCF pulps suggest that the environmental effects of these processes are low and similar."[20] Most TCF pulp is produced in Sweden and Finland for sale in Germany,[17] all markets with a high level of environmental awareness. In 1999, TCF pulp represented 25% of the European market.[21]

TCF bleaching, by removing chlorine from the process, reduces chlorinated organic compounds to background levels in pulp mill effluent.[22] ECF bleaching can substantially reduce but not fully eliminate chlorinated organic compounds, including dioxins, from effluent. While modern ECF plants can achieve chlorinated organic compounds (AOX) emissions of less than 0.05 kg per tonne of pulp produced, most do not achieve this level of emissions. Within the EU, the average chlorinated organic compound emissions for ECF plants is 0.15 kg per tonne.[23]

However, there has been disagreement about the comparative environmental effects of ECF and TCF bleaching. On the one hand, paper and chemical industry-funded studies have generally found that there is no environmental difference between ECF and TCF effluents.[24] On the other hand, independent peer-reviewed study has found that, comparing conventional, ECF and TCF effluents before and after secondary treatment, “TCF effluents are the least toxic”.[25]

Sulfur, hydrogen sulfide, and sulfur dioxide

Main articles: Kraft process and Sulfite process

Sulfur-based compounds are used in both the kraft process and the sulfite process for making wood pulp. Sulfur is generally recovered, with the exception of ammonia-based sulfite processes, but some is released as sulfur dioxide during combustion of black liquor, a byproduct of the kraft process, or "red liquor" from the sulfite process. Sulfur dioxide is of particular concern because it is water-soluble and is a major cause of acid rain. In 2006 the pulp and paper industry in Canada released about 60,000 tonnes of sulfur oxides (SOx) into the atmosphere, accounting for just over 4% of the total SOx emission from all Canadian industries.[26]

A modern kraft pulp mill is more than self-sufficient in its electrical generation and normally will provide a net flow of energy to the local electrical grid.[27] Additionally, bark and wood residues are often burned in a separate power boiler to generate steam.

Air emissions of hydrogen sulfide, methyl mercaptan, dimethyl sulfide, dimethyl disulfide, and other volatile sulfur compounds are the cause of the odor characteristic of pulp mills utilizing the kraft process. Other chemicals that are released into the air and water from most paper mills include the following:[28]

Bleaching mechanical pulp is not a major cause for environmental concern since most of the organic material is retained in the pulp, and the chemicals used (hydrogen peroxide and sodium dithionite) produce benign byproducts (water and, eventually, sodium sulfate, respectively).

However, the bleaching of chemical pulps has the potential to cause significant environmental damage, primarily through the release of organic materials into waterways. Pulp mills are almost always located near large bodies of water because they require substantial quantities of water for their processes. An increased public awareness of environmental issues from the 1970s and 1980s, as evidenced by the formation of organizations like Greenpeace, influenced the pulping industry and governments to address the release of these materials into the environment.[29] Environmental NGO pressure was especially intense on Swedish and Finnish pulp and paper companies.[30]

Conventional bleaching using elemental chlorine produces and releases into the environment large amounts of chlorinated organic compounds, including chlorinated dioxins.[11] Dioxins are recognized as a persistent environmental pollutant, regulated internationally by the Stockholm Convention on Persistent Organic Pollutants.

Dioxins are highly toxic, and health effects on humans include reproductive, developmental, immune and hormonal problems. They are known to be carcinogenic. Over 90% of human exposure is through food, primarily meat, dairy, fish and shellfish, as dioxins accumulate in the food chain in the fatty tissue of animals.[31]

Non-renewable resources

Clay or calcium carbonate are used as fillers for some papers. Kaolin is the most commonly used clay for coated papers.

Mitigation

Waste paper awaiting recycling in the Netherlands.

Some of the effect of the pulp and paper industry can be addressed and there is some change towards sustainable practices. The use of wood solely from plantation forests addresses concerns about loss of old growth forests.

Bleaching

The move to non-elemental chlorine for the bleaching process reduced the emission of the carcinogenic organochlorines. Peracetic acid, ozone[32] and hydrogen peroxide and oxygen are used in bleaching sequences in the pulp industry to produce totally chlorine free (TCF) paper.

Recycling

Main article: Paper recycling

There are three categories of paper that can be used as feedstocks for making recycled paper: mill broke, pre-consumer waste, and post-consumer waste.[33] Mill broke is paper trimmings and other paper scrap from the manufacture of paper, and is recycled internally in a paper mill. Pre-consumer waste is material that was discarded before it was ready for consumer use. Post-consumer waste is material discarded after consumer use such as old magazines, old telephone directories, and residential mixed paper.[34]

One concern about recycling wood pulp paper is that the fibers are degraded with each and after being recycled four or five times the fibers become too short and weak to be useful in making paper.[35]

The United States Environmental Protection Agency has found that recycling causes 35% less water pollution and 74% less air pollution than making virgin paper.[36] Pulp mills can be sources of both air and water pollution, especially if they are producing bleached pulp. Recycling paper decreases the demand for virgin pulp and thus reduces the overall amount of air and water pollution associated with paper manufacture. Recycled pulp can be bleached with the same chemicals used to bleach virgin pulp, but hydrogen peroxide and sodium hydrosulfite are the most common bleaching agents. Recycled pulp, or paper made from it, is known as PCF (process chlorine free) if no chlorine-containing compounds were used in the recycling process.[37]

Recycled Paper and Paper Mills

Recycling as an alternative to the use of landfills and recycled paper is one of the less complicated procedures in the recycling industry.[38] Although there is not a landfill crisis at this point in time, it is commonly believed that measures should to be taken in order to lower the negative impacts of landfills, for many hazardous elements are produced and spread because of this enclosure of trash.[39] Most recycled paper is priced higher than freshly made paper, and this tends to plays a deciding factor for the consumer.[40] Because most of the recycled pulp is purchased in an open market, virgin paper is produced cheaper with the pulp that was made by the specific paper mill. Virgin paper contains no recycled content and is made directly from the pulp of trees or cotton. Materials recovered after the initial paper manufacturing process are considered recycled paper. Because that original standard was so vague, some “recycled papers” contained only mill scraps that would have been included in virgin paper anyway.[41] Standards have recently been set to prevent companies from making it seem like they were selling recycled paper. The collection and recycling industries have fixated on the scraps of paper that is thrown away by customers daily in order to increase the amount of recycled paper.[38] Different paper mills are structured for different types of paper, and most “recovered office paper can be sent to a deinking mill”.[42] A deinking mill serves as a step in the recycling paper process. This type of mill detaches the ink from the paper fibers, along with any other excess materials which are also removed from the remaining paper. In the deinking mill, after all of the unwanted coatings of paper are stripped, the refurbished paper is sent to the paper machine. The old scraps are now constructed into new paper at the paper machine. Many papers mills have recycled business papers by transforming the old business papers into beneficial letters and envelopes. The production process for recycled paper is more costly than the well-developed paper mills that create paper with the use of trees. This process in making recycled paper is also much more time-consuming. However, recycling paper has a multitude of benefits from an environmental perspective.[43] “For all the state-of-the-art technology now incorporated into modern paper mills, the industry's underlying structure is still based upon a worldview that was transformative in the 19th-century but is out-of-date as the 21st century approaches”.[42]

Regulations

“The Environmental, Health, and Safety (EHS) Guidelines are technical reference documents with general and industry specific examples of Good International Industry Practice (GIIP).”[44] In simpler terms, the EHS is what helps develop the federal regulations on industries and companies that require factories that have the potential to cause a great amount of harm to society and the environment. These Guidelines for the environment, health and safety list out the specific rules for the paper mill industries that explains what they need to follow in order to limit the pollution that is consequently distributed and by the mills.

Mechanical pulp mills

Wood pulp produced primarily by grinding wood is known as "mechanical pulp" and is used mainly for newsprint. These mechanical processes use fewer chemicals than either kraft or sulfite mills. The primary source of pollution from these mills is organic material such as resin acids released from the wood when it is processed. Mechanical wood pulp is "brightened," as opposed to bleached, using less toxic chemicals than are needed for chemical pulps.

Inks

Three main issues with the environmental impact of printing inks is the use of volatile organic compounds, heavy metals and non-renewable oils. Standards for the amount of heavy metals in ink have been set by some regulatory bodies.[45] There is a trend toward using vegetable oils rather than petroleum oils in recent years due to a demand for better sustainability.

Deinking recycled paper pulp results in a waste slurry which may go to landfill. De-inking at Cross Pointe's Miami, Ohio mill in the United States results in sludge weighing 22% of the weight of wastepaper recycled.[46]

In the 1970s federal regulations for inks in the United States governed the use of toxic metals such as lead, arsenic, selenium, mercury, cadmium and hexavalent chromium.[47]

See also

References

  1. "Executive Summary: Municipal Solid Waste in the United States: 2005 Facts and Figures" (PDF). US Environmental Protection Agency, Washington, DC. 2005. Archived from the original (PDF) on March 5, 2015. Retrieved 2008-05-06.
  2. "Paper Sludge - Waste Disposal Problem or Energy Opportunity, 1999 Engineering Conference Proceedings". Technical Association of the Pulp and Paper Industry (TAPPI), Norcross, GA.
  3. "Clean Air - Clean Water - Pulp Info Centre". Reach for Unbleached Foundation, Comox, BC. Retrieved 2008-05-07.
  4. Environment Canada (1996). "National Pollutant Release Inventory, 1996."
  5. "Paper, Printing & The Environment." http://www.earthgreetings.com.au/htm%20pages/environment/paper&environment.html "Paper, Printing & The Environment." Check |url= value (help). Retrieved June 1, 2016. Missing or empty |title= (help) Earth Greetings Co., Glandore, South Australia. Accessed 2010-07-26.
  6. Prices for pulp versus saw timber
  7. Open Mind Research Group on behalf of their client Environment Victoria (1994-12-4). "Woodchipping to Japan - Joint Environment Group Commissioned Public Opinion". Forest Fact File. "Newspoll - December 1994 - To the Question "Next a question about native forests. Do you personally approve or disapprove of trees from Australian's native forests being fell and exported as woodchips to Japan? 80.3% of Australians disapproved, 11.7% approved, 8.0% undecided."
  8. Woodchipping in New Zealand
  9. "Paper Cups = Unsustainable Consumption". aboutmyplanet.com. Retrieved Feb 6, 2008.
  10. Spitzer, Nina. "The impact of disposable coffee cups on the environment". Retrieved 21 November 2012.
  11. 1 2 "Effluents from Pulp Mills using Bleaching - PSL1". ISBN 0-662-18734-2 DSS. Health Canada. 1991. Retrieved 2007-09-21.
  12. "Releases of Lead to the Environment". Environment Canada. Retrieved 2015-12-04.
  13. "Iwi not giving up fight against Tasman mill discharges". Radio New Zealand. 18 December 2010. Retrieved 18 December 2010.
  14. Park, Stephen (February 2008). "Colour and Clarity of the Tarawera River 1991–2008" (PDF). OCLC 230731509.
  15. EPA (28 June 2006). "General Overview of What's In America's Trash". United States Environmental Protection Agency. Retrieved 4 April 2012.
  16. Effluents from Pulp Mills using Bleaching - PSL1. Ottawa, ON: Health Canada and Environment Canada. 1991. ISBN 0-662-18734-2. Retrieved 2010-07-26. Catalog no. En40-215/2E
  17. 1 2 "Frequently Asked Questions on Kraft Pulp Mills" (PDF). Ensis (Joint research of Commonwealth Scientific and Industrial Research Organisation, Australia and Scion, New Zealand). 2005-03-04. Archived from the original (PDF) on October 1, 2011.
  18. "ECF: The Sustainable Technology" (PDF). Alliance for Environmental Technology, Erin, ON and Washington, DC. Retrieved 2008-05-06.
  19. "Frequently Asked Questions on Kraft Pulp Mills" (PDF). Ensis/CSIRO (Australia) joint research . 2005-03-04. Archived from the original (PDF) on October 1, 2011. Retrieved 2007-09-21. External link in |publisher= (help)
  20. Paper Task Force (1995). "Environmental Comparison of Bleached Kraft Pulp Manufacturing Technologies." White paper no. 5. Joint publication of Duke University, Environmental Defense Fund, Johnson & Johnson, McDonald's, Prudential Insurance Company of America and Time Inc.
  21. Chlorine Free Products Association (Spring 1999). CFPA Today. Missing or empty |title= (help)
  22. Duke University, Environmental Defense Fund, Johnson&Johnson (December 1995). "Environmental comparison of bleached kraft pulp manufacturing" (PDF). Environmental Defense Fund . Archived from the original (PDF) on December 1, 2006. Retrieved 2007-11-18. External link in |publisher= (help)
  23. Ad Hoc Working Group of European Commission (May 2006). "Revision of the Ecolabelling Criteria for Tissue Paper: Comments and background to the second draft proposal" (PDF). Archived from the original (PDF) on December 21, 2012.
  24. "ECF and TCF: Toxicity An Analysis of Recent Published Data". The Alliance for Environmental Technology (International Association) joint research . October 1994. Retrieved 2007-10-26. line feed character in |publisher= at position 17 (help); External link in |publisher= (help)
  25. Tarkpea, Maria; et al. (1999). "TOXICITY OF CONVENTIONAL, ELEMENTAL CHLORINE–FREE, AND TOTALLY CHLORINE–FREE KRAFT-PULP BLEACHING EFFLUENTS ASSESSED BY SHORTTERM LETHAL AND SUBLETHAL BIOASSAYS". Environmental Toxicology and Chemistry. 18 (11): 2487–2496. doi:10.1002/etc.5620181115.
  26. "2006 Air Pollutant Emissions for Canada (Tonnes)". Environment Canada. Retrieved 2008-05-07.
  27. Jeffries, Tom (1997-03-27). "Kraft pulping: Energy consumption and production". University of Wisconsin Biotech Center. Archived from the original on September 28, 2011.
  28. Tilman, Anna (2008). "Pulp and Paper Pollution: The Toxic Legacy of Federal Neglect." Reach for Unbleached Foundation, Comox, BC.
  29. Sonnenfeld, David A. (1999). "Social Movements and Ecological Modernization: The Transformation of Pulp and Paper Manufacturing, Paper: WP00-6-Sonnenfeld". Berkeley Workshop on Environmental Politics. Berkeley, CA: Institute of International Studies (University of California, Berkeley). Retrieved 2007-09-20.
  30. Auer, Matthew R. (1996). "Negotiating toxic risks: A case from the Nordic countries," Environmental Politics 5: 687-699.
  31. "Dioxins and their effects on human health". World Health Organization. 2014. Retrieved 2010-06-11.
  32. "Ozone and Color Removal". Ozone Information. Retrieved 2009-01-09.
  33. "Debunking the Myths of Recycled Paper". Recycling Point Dot Com. Archived from the original on 2006-10-06. Retrieved 2007-02-04.
  34. "Recycling glossary". American Forest and Paper Association. Archived from the original on 2007-06-30. Retrieved 2007-10-20.
  35. [deadlinkarticles.blogspot.com/2016/04/paper-recycling-information-sheet.html "Paper Recycling Information Sheet"] Check |url= value (help). Waste Online. Retrieved October 20, 2007.
  36. "Recycle on the Go: Basic Information". US Environmental Protection Agency. October 18, 2007. Retrieved 2007-10-30.
  37. MacFadden, Todd; Michael P. Vogel (June 1996). "Facts About Paper". Printers' National Environmental Assistance Center, Montana State University. Retrieved 2007-10-30. line feed character in |publisher= at position 19 (help)
  38. 1 2 ["Recycled Fiber Paper: Longevity Study." N.p., n.d. Web. 5 Nov. 2014.]
  39. ("Landfills, Municipal Solid Waste")"Landfills, Municaple Solid Waste". EPA. Environmental Protection Agency. Retrieved 7 November 2014.
  40. "Papermaking: Overview". Conservatree. Conservatree nonprofit organization. Retrieved 28 October 2014.
  41. "Pulp and Paper Mills". Environmental, Health, and Safety Guidelines. International Finance Corporation.
  42. 1 2 Kinsella, S. "Recycled Paper: The Best Choice". Conservatree. Retrieved 11 August 2015.
  43. "Q&A on the Environmental Benefits of Recycled Paper" (PDF). Environmental Defence. Retrieved 11 August 2015.
  44. "Environmental, Health, and Safety General Guidelines" (PDF). World Bank Group. Retrieved 11 August 2015.
  45. http://www.cpima.org/HeavyMetals.pdf
  46. "Recycling Paper and Glass". US Department of Energy. September 2006. Retrieved 2007-10-30.
  47. National Association of Printing Ink Manufacturers

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