Abstract
This report serves as a foundation for quantifying the potential for energy conservation in the Canadian consumer products packaging sector. Investigation was made of energy consumption, waste management, and energy conservation potential in the various stages of the packaging and consumption process: raw material acquisition, material and packaging manufacture, package filling and distribution, consumer use, post-consumption options (energy recovery, disposal, recycling), and cleaning and transportation (if applicable) between each stage. The food and beverage industry was singled out as the most important sector because of its large consumption of packaging. Significant opportunities for energy conservation were found, although any savings accomplished through packaging changes appear to be difficult to implement. Packaging energy savings seem to be able to be achieved only through a product-by-product, industry-by-industry initiative by means of product and package standardization. An efficient example of this is the milk distribution system, where refillable plastic jugs require only 1.4 MBtu per 3000 quarts delivered (as compared with, for example, 68.9 MBtu for disposable aluminium soft drink cans). Other conclusions are made concerning the optimization of packaging energy, with respect to types of packaging, energy requirements related to use of packaged products, impact of government policies and of retailing techiques,
More>>
Citation Formats
None.
Report revision master: an energy analysis of consumer products packaging.
Canada: N. p.,
1980.
Web.
None.
Report revision master: an energy analysis of consumer products packaging.
Canada.
None.
1980.
"Report revision master: an energy analysis of consumer products packaging."
Canada.
@misc{etde_5142452,
title = {Report revision master: an energy analysis of consumer products packaging}
author = {None}
abstractNote = {This report serves as a foundation for quantifying the potential for energy conservation in the Canadian consumer products packaging sector. Investigation was made of energy consumption, waste management, and energy conservation potential in the various stages of the packaging and consumption process: raw material acquisition, material and packaging manufacture, package filling and distribution, consumer use, post-consumption options (energy recovery, disposal, recycling), and cleaning and transportation (if applicable) between each stage. The food and beverage industry was singled out as the most important sector because of its large consumption of packaging. Significant opportunities for energy conservation were found, although any savings accomplished through packaging changes appear to be difficult to implement. Packaging energy savings seem to be able to be achieved only through a product-by-product, industry-by-industry initiative by means of product and package standardization. An efficient example of this is the milk distribution system, where refillable plastic jugs require only 1.4 MBtu per 3000 quarts delivered (as compared with, for example, 68.9 MBtu for disposable aluminium soft drink cans). Other conclusions are made concerning the optimization of packaging energy, with respect to types of packaging, energy requirements related to use of packaged products, impact of government policies and of retailing techiques, consumer lifestyles, and the like. 95 refs., 3 figs., 54 tabs.}
place = {Canada}
year = {1980}
month = {Mar}
}
title = {Report revision master: an energy analysis of consumer products packaging}
author = {None}
abstractNote = {This report serves as a foundation for quantifying the potential for energy conservation in the Canadian consumer products packaging sector. Investigation was made of energy consumption, waste management, and energy conservation potential in the various stages of the packaging and consumption process: raw material acquisition, material and packaging manufacture, package filling and distribution, consumer use, post-consumption options (energy recovery, disposal, recycling), and cleaning and transportation (if applicable) between each stage. The food and beverage industry was singled out as the most important sector because of its large consumption of packaging. Significant opportunities for energy conservation were found, although any savings accomplished through packaging changes appear to be difficult to implement. Packaging energy savings seem to be able to be achieved only through a product-by-product, industry-by-industry initiative by means of product and package standardization. An efficient example of this is the milk distribution system, where refillable plastic jugs require only 1.4 MBtu per 3000 quarts delivered (as compared with, for example, 68.9 MBtu for disposable aluminium soft drink cans). Other conclusions are made concerning the optimization of packaging energy, with respect to types of packaging, energy requirements related to use of packaged products, impact of government policies and of retailing techiques, consumer lifestyles, and the like. 95 refs., 3 figs., 54 tabs.}
place = {Canada}
year = {1980}
month = {Mar}
}