Abstract
An analysis of the overall relative merits of the use of uncoated paper vs molded polystyrene bead foam in single-use 8-oz cups is described here as a manageable example of the use of paper vs plastics in packaging. In raw material requirements the paper cup required about 2.5 times its finished weight of raw wood and about the same hydrocarbon fueling requirement as is needed for the polystyrene foam cup. To process the raw materials about six times as much steam, 13 times as much electric power, and twice as much cooling water are consumed to produce the paper cup as compared to the polystyrene foam cup. Emission rates to air are similar and to water are generally higher for the paper cup.
Virtually all primary use factors favor polystyrene foam over paper. Once used both cup types may be recycled. Landfill disposal of the two items under dry conditions will occupy similar landfill volumes after compaction and will confer similarly slow to nonexistent decomposition to either option. Under wet conditions polystyrene foam will not readily degrade, but may help other materials to do so. Paper under wet conditions will biodegrade to produce methane, a significant greenhouse gas, biochemical oxygen demand to any leachate, and instability to the land surface during the process. Both materials can be incinerated cleanly in a municipal waste stream with the option of energy recovery, to yield an ash volume of 2%–5% of the incoming waste volume. Overall this analysis would suggest that polystyrene foam, with an extension to plastics in general, should be given more evenhanded consideration relative to paper in packaging applications than is currently the case.
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Literature Cited
Ainsworth, S. J. 1990. Plastics recycling ventures attack increasing waste problem.Chemical and Engineering News 68(28):19–22.
Ames, B. N., R. Magaw, and L. S. Gold. 1987. Ranking possible carcinogenic hazards.Science 236:271–280.
Anon. 1989. Genpak Corp. and Mobil Chem. Co. plant recycles foam products.World Wastes 32(2):14.
Anon. 1990a.This Week, Victoria, July 4, page M13.
Anon. 1990b. Garbage to light a small town.Chemical and Engineering News 68(10), (43):18–19. Estimates made based on populations of towns cited and the average per capita US power consumption, 1.36 kW. This figure was derived by dividing the gross annual US power consumption for 1988, 2.701 × 109 kWh, by the 1980 census population, 2.265 × 108, both data from the World Almanac and Book of Facts, M. S. Hoffman (ed.). Pharos Books, New York, 1990.
Anon. 1990c. Public pressure forces McDonald’s to end foam use.Eco-Log Week 44(9)L3–4.
Anon. 1990d. Sludge [and ash] recycling technology implemented in U.S. plant.Water and Pollution Control 128(6):31.
Bachman, G. B., H. Hellman, K. R. Robinson, R. W. Finholt, E. J. Filar, L. V. Heisey, L. L. Lewis, and D. D. Micucci. 1947. A new method of preparing substituted vinyl compounds. Depolymerization studies on vinyl polymers.Journal of Organic Chemistry 12:108–121.
Barlaz, M. A., D. M. Schaefer, and R. K. Ham. 1989. Bacterial population development and chemical characteristics of refuse decomposition in a simulated sanitary landfill.Applied and Environmental Microbiology 55(1):55–65.
Barlaz, M. A., R. K. Ham, and D. M. Schaefer. 1990. Methane production from municipal refuse. A review of enhancement techniques and microbial dynamics.CRC Reviews in Environmental Control 19(6):557–584.
Berry, R. S., and H. Makino. 1974. Energy thrift in packaging and marketing.Technology Review 76(4):32.
Bonsor, N., N. McCubbin, and J. B. Sprague. 1988. Municipal-industrial strategy for abatement (MISA), kraft mill effluents in Ontario. Queen’s Printer for Ontario, April, p. 11–201.
Bouster, C., P. Vermande, and J. Veron. 1989. Evolution of the product yield with temperature and molecular weight in the pyrolysis of polystyrene.Journal of Analytical and Applied Pyrolysis 15:249–259.
Brooks, J. M., D. A. Wiesenburg, R. A. Burke, Jr., and M. C. Kennicutt. 1981. Gaseous and volatile hydrocarbon inputs from a subsurface oil spill in the Gulf of Mexico.Environmental Science and Technology 15(8):951–959.
Canadian Broadcasting Corp. 1990. Good morning Show. Cache Creek renamed “Trash Creek,” deliveries from 20 chip trucks per day from Vancouver. 8.00 a.m., March 26.
Casey, J. P. (ed.). 1980. Pulp and paper. Chemistry and chemical technology. Wiley-Interscience, New York, Vol. I, pp. 469–470; Vol. II, pp. 1235–1335.
Doolan, P. C., and P. R. Pujado. 1989. Make aromatics from LPG.Hydrocarbon Processing 68(9):72–76.
Dwyer, F. G., P. J. Lewis, and F. H. Schneider. 1976. Efficient, nonpolluting ethylbenzene process.Chemical Engineering 83(1):90–91.
Fergusson, W. C. 1976. Recovery of resources from plastics industrial waste.Chemistry and Industry (London) 724–729.
Franklin Associations, Ltd. 1988. Characterization of municipal solid waste in the United States, 1970 to 2000. Consultants, Prairie Village, Kansas, March 30. Breakdown for 1986 cited byChemecology 19(3):5.
Franklin Associates. 1990. Cited by D. Stipp, Life cycle analysis measures greenness, but results may not be black & white,Wall Street Journal February 28, 1991, p. B-1.
Freiling, J. G., and A. A. Simone. 1973. Feedstock availability shifting economics of olefin manufacture.Oil and Gas Journal 71:25–31.
French, H. M. 1980. Terrain, land use and waste drilling fluid disposal problems, Arctic Canada.Arctic 33(4):794–806.
Gillies, D. J. 1989. The case for incineration.Canadian Packaging 42(4):32–34.
Grossman, D., and S. Shulman. 1990. Down in the dumps.Discover 11(4):36–41, April.
GRS. 1989. Pentane emissions tamed by EPS molder.Modern Plastics 66:32–33.
Guillet, J. E. 1990. Cited by J. Krieger, Changing public’s image of chemistry: Educating is key.Chemical Engineering News 68(5):28–31.
Hammers Plastic Recycling Corp. 1990. Iowa Falls, Iowa 50126. Pamphlet.
Hetherington, E. D. 1987. The importance of forests in the hydrological regime. Pages 179–211,in M. C. Healey and R. R. Wallace (eds.), Canadian aquatic resources. Canadian bulletin of fisheries and aquatic science 215. Department of Fisheries and Oceans, Ottawa.
Hileman, B. 1989. Global warming.Chemical and Engineering News 67(11):25–44.
Hocking, M. B. 1975. A chemical input-output analysis of municipal solid waste incineration.Journal of Environmental Systems 5(3):163–183.
Hocking, M. B. 1985. Modern chemical technology and emission control. Springer-Verlag, New York, Chapter 13.
Hocking, M. B. 1990. Re campus hot drink containers.The Ring (Victoria) 16(7):3.
Hocking, M. B. 1991. Paper versus polystyrene: A complex choice.Science 251:504–505.
Interim Pollution Reduction Strategy for Ontario Kraft Mills. 1989. Queen’s Printer for Ontario, Toronto, April, p. 10.
Jackson, F. R. 1974. Energy from solid waste. Noyes Data Corporation, Park Ridge, New Jersey.
Johnson, F. D. 1989. Incineration: No longer on the back burner.Water and Pollution Control 127(4):12.
Johnston, H. S. 1984. Human effects on the global atmosphere.Annual Reviews of Physical Chemistry 35:481–505.
Kampouris, E. M., C. D. Papaspyrides, and C. N. Lekakou. 1988. A model process for the solvent recycling of polystyrene.Polymer Engineering and Science 28(8):534–537.
Kane, M. 1990. Oil spill clean-up under new scrutiny.Chemistry in Britain 26(1):5–6.
Kindler, H., and A. Nikles. 1979. Energiebedarf bei der Herstellung und Verarbeitung von Kunststoffen.Chemie-Ingenieur-Technik 51(11):1125–1127.
Kindler, H., and A. Nikles. 1980. Energieaufwand zur Herstellung von Werkstoffen-Berechnungsgrundsätze und Energieäquivalenzwerte von Kunststoffen.Kunstoffe 70(12):802–807.
Kranz, E. S. 1984. Stone and Webster (contractors). International indicators: The moment to modernize. Energy Bureau Conference, Houston, Texas. September.
Kuhlke, W. C. 1990. Recycle your plastic waste.Hydrocarbon Processing 69(5):89–90.
Langebach, H. P., and U. Deubler. 1979. More on saving feedstock and energy in ethylene plants.The Oil and Gas Journal 77(18):235–238.
Lewis, P. J., and F. G. Dwyer. 1977. Ethylbenzene unit operates well on dilute ethylene.The Oil and Gas Journal 75(40):55–58.
Lewis, P. J., C. Hagopian, and P. Koch. 1983. Styrene. Pages 770–801,in Kirk-Othmer Encyclopedia of Chemical Technology, 3rd ed. Vol. 21. John Wiley, New York.
Lindquist, B. 1990. Answering the burning question.Process Industries Canada 74(5):18–19.
Lowenheim, F. A., and M. K. Moran. 1975. Faith Keyes and Clark’s industrial chemicals, 4th ed. John Wiley & Sons, New York. pp. 126, 365, 378, 779.
MacFarlane, A. C. 1976. Ethylbenzene process proves out.The Oil and Gas Journal 74(6):99–102.
Massey, D., W. E. Kelly, E. K. Landis, and M. D. McKinley. 1971. Urban refuse incinerator design and operation: State of the art. Bureau of Engineering Research Report No. 133-119, U.S. Bureau of Mines, Washington, June.
McCubbin, N. 1983. The basic technology of the pulp and paper industry and its environmental practices. Environment Canada, Ottawa.
Monsanto. 1969. New styrene process cuts annual costs 18%.Chemical and Engineering News 47:49.
Miller, S. A., and J. W. Donaldson. 1967. Styrene manufacture.Chemical Process Engineering 48(12):37–42, 47.
Nottingham City Council. 1974. Nottingham refuse incineration and district heating scheme. Calculations by author from their current experience based on August 1990 visit,Pamphlet, 10 pp.
Peterson, M., and J. R. Sutherland. 1989. Grey mould control by seedling canopy humidity reduction through underbench ventilation and styroblock aeration, Forestry Canada, Victoria, British Columbia, March.
Plastics Recycling Directory [for 1989]. 1988. The Plastic Bottle Institute, Washington, DC.
Plehiers, P. M., and G. F. Froment. 1987. Cocracking and separate cracking of ethane and naphtha.Industrial and Engineering Chemistry Research 26(11):2204–2211.
Pllehn, W. (ed.). 1988. Comparison of the effects on the environment from polyethylene and paper carrier bags. Report by the Federal Office of the Environment, Berlin, August.
Raimondo, S. 1990. Which type of drinking container retains heat best? Vancouver Island Regional Science Fair presentation, Victoria, British Columbia, April 7–9.
Ramanathan, V. 1988. The greenhouse theory of climate change: A test by inadvertent global experiment.Science 240(4850):293–299.
Ransley, D. L. 1978. BTX processing. Pages 264–277,in Kirk-Othmer Encyclopedia of Chemical Technology, 3rd ed., Vol. 4. John Wiley, New York.
Rathje, W. L. 1988. U.S. Environmental Protection Agency, Washington, DC. Cited by the Polystyrene Packaging Council.
Rathje, W. L. 1989a. Rubbish!Atlantic Monthly 264(12):99–109.
Rathje, W. L. 1989b. Comments on S.1112 and S.1113, The Solid Waste Disposal Act, 101st Congress, 1st Session, 21 June 1989, before the U.S. Senate Committee on Environment and Public Works, Washington, DC.
Reese, K. M. 1989. Archaeologists dig into secrets of landfills.Chemical and Engineering News 67(27):60.
Robinson, G. 1984. Impact of heavy fuel oil and natural gas prices on the value of biomass delivered to British Columbia pulp mills. Agriculture Canada, Canadian Forest Service, Ottawa. Report BC-X-256.
Rosenwald, R. H. 1978. Alkylation. Pages 50–72,in Kirk-Othmer Encyclopedia of Chemical Technology, 3rd ed., Vol. 2. John Wiley, New York.
Seltzer, R. 1989. Impact of Alaska oil spill spreading.Chemical and Engineering News 67(16):8.
Shapiro, I. S. 1978. Future sources of organic raw materials.Science 202:287–290.
Simonet, R. A. 1985. Methane recovery from landfill gas in order to produce natural gas by means of membranes.Desalination 53:289–295.
Sinclair, W. F. 1990. Controlling pollution from Canadian pulp and paper manufacturers: A federal perspective. Environment Canada, Conservation and Protection, Ottawa, p. 200.
Skochdopole, R. E., and G. C. Welsh. 1989. Polystyrene foams. Pages 193–206,in Encyclopedia of Polymer Science and Engineering, Vol. 16. John Wiley, New York.
Straub, C. P. 1989. Practical handbook of environmental control. CRC Press, Boca Raton, Florida, pp. 448, 449.
Swabb, L. E., Jr. 1978. Liquid fuels from coal: From R&D to an industry.Science 199:619.
Swanson, R. H., and G. R. Hillman. 1977. Predicted increased water yield after clear-cutting verified in west-central Alberta. Information report NOR-X-19. Canadian Forest Service, Edmonton, October.
Teal, J. M., and R. W. Howarth. 1984. Oil spill studies: A review of ecological effects.Environmental Management 8(1):27–44.
US EPA. 1988. Environmental Protection Agency/Paper Industry Cooperative Dioxin Screening Study, US Environmental Protection Agency. Report No. EPA-440/1-88-025. Washington, DC, March.
US EPA 1989. Code of Federal Regulations (CFR), Title 40—Protection of the environment; Chapter 1, Subchapter N, Effluent guidelines and standards, Part 430—Pulp, paper, and paperboard point source category, Subpart H-BCT Bleached kraft subcategory 430.80, 7-1-89 ed. Washington, DC.
Vervalin, C. H. 1989. European energy outlook to year 2010 is subject of new report from DRI.Hydrocarbon Processing 68(8):21–23.
Ward, D. J., S. M. Black, T. Imai, Y. Sato, N. Nakayama, H. Tokano, and K. Egawa. 1987. How new styrene unit is working.Hydrocarbon Processing 66(3):47–48.
Waterland, A. F. 1980. Energy management. Pages 21–45,in Kirk Othmer Encyclopedia of Chemical Technology, 3rd ed., Vol. 9. John Wiley, New York.
Wintermeyer, R. L., and W. C. Buzanowski. 1989. Styrene monomers. Pages 5–241,in Encyclopedia of Polymer Science and Engineering, Vol. 16. John Wiley, New York.
Wishart, R. S. 1978. Industrial energy in transition: A petrochemical perspective.Science 199:614–618.
Zarnett, G. D., and F. Besik. 1972.Water and Pollution Control 110:15.
Zaitsev, N. B., and I. Ya. Poddubnyi, 1975. Thermal degradation of polystyrene studied by pyrolytic gas chromatography.Vysokomolekulyarnye Soedineniya, Seriya A. 17(5):1130–1135. [Chemical Abstracts 83:79908].
Zurer, P. 1989. International gathering aims for pact on climate change problem.Chemical and Engineering News 67(40):15–16.
Zurer, P. 1990. Fate of CFC alternatives remains up in the air.Chemical and Engineering News 68(29):5–6.
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Hocking, M.B. Relative merits of polystyrene foam and paper in hot drink cups: Implications for packaging. Environmental Management 15, 731–747 (1991). https://doi.org/10.1007/BF02394812
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DOI: https://doi.org/10.1007/BF02394812