Materials and the Environment: Eco-Informed Material Choice

The material life cycle

The idea of a life cycle has its roots in the biological sciences. Living organ­isms are born; they develop, mature, grow old, and, ultimately, die. The progression is inherent in the organism—all follow the same path—but the way the organism develops on the way and its behavior and influence depend on its interaction with its environment—here, the natural environ­ment. Life-cycle studies explore and track the interaction of organisms with their environment.

The life-cycle idea has since been adapted and applied in other fields: in the social sciences (the interaction of individuals with their social envi­ronment), in the management of technology (the study of innovation in the business environment), and in product design (the interaction of prod­ucts with the natural, social, and business environments). Concern about resource depletion (the Club of Rome Report, already described), the oil crisis of the early 1970s, followed by the first evidence of carbon-induced global warming, focused attention on the last of these: the life cycle of manufactured products and their interaction, above all, with the natural environment. Products are made of materials; materials are their flesh and bones, so to speak, and these are central to the interaction. The study of product and associated materials life cycles involves assessing the environ­mental impacts associated with the full life of products, from the extraction of raw materials to their return to the ecosphere as waste—from birth to death, or (if you prefer) from cradle to grave. That means tracking materials through life. So let us explore that idea.

Figure 3.1 is a sketch of the material's life cycle. Ore, feedstock, and energy, drawn from the planet's natural resources on the left, are processed to give materials. These are manufactured into products that are distributed,

The material life cycle Подпись: Material production The material life cycle Подпись: Подпись: Product use

The material life cycle 41

Подпись: FIGURE 3.1The material life cycle. Ore and feedstock are mined and processed to yield a mate­rial. This material is manufactured into a product that is used, and at the end of its life, it is discarded, recycled, or, less commonly, refurbished and reused. Energy and materials are consumed in each phase, generating waste heat and solid, liquid, and gaseous emissions.

sold, and used. Products have a useful life, at the end of which they are dis­carded, a fraction of the materials they contain perhaps entering a recycling loop, the rest committed to incineration or landfill.

Energy and materials are consumed at each point in this cycle, deplet­ing natural resources. Consumption brings an associated penalty of car­bon dioxide (CO2), oxides of sulfur (SOx), and of nitrogen (NOx), and other emissions in the form of low-grade heat and gaseous, liquid, and solid waste. In low concentrations, most of these emissions are harmless, but as their concentrations build, they become damaging. The problem, simply put, is that the sum of these unwanted by-products now often exceeds the capacity of the environment to absorb them. For some the damage is local and the creator of the emissions accepts the responsibility and cost of con­taining and remediating it (the environmental cost is said to be internal­ized). For others the damage is global and the creator of the emissions is not held directly responsible, so the environmental cost becomes a burden on society as a whole (it is externalized). The study of resource consump­tion, emissions, and their impacts is called life-cycle assessment (LCA).

Materials and the Environment: Eco-Informed Material Choice

Eco-audits

Figure 7.1 shows the procedure for the eco-audit of a product. The inputs are of two types. The first are drawn from a user-entered bill of materials, process choice, transport …

Exploring the data: property charts

Data sheets like those of Chapter 12 list material properties, but they pres­ent no comparisons and they give no perspective. The way to achieve these is to plot material property …

Energy and CO2 footprints of energy, transport, and use

Energy is used to make materials and to shape, join, and finish them to make products. Energy is used to transport the products from where they are made to where …

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