Friday, April 13, 2007

TCEO: Disposal vs. Re-useable Cups

Ilea has a piece from a UVic researcher, Martin Hocking written back in 1994 on what I call the "TCEO" (Total Cost of Energy Ownership) for reuseable cups vs. disposable cups. Disposable cups end up in the landfill; reuseable cups need to be washed. Which uses less energy?

This classic life-cycle energy analysis was performed by University of Victoria professor of chemistry Martin B. Hocking. Hocking compared three types of reusable drinking cups (ceramic, glass and reusable plastic) to two types of disposable cups (paper and polystyrene foam).

The energy of manufacture of reusable cups is vastly larger than the energy of manufacture of disposable cups (Table 1). In order for a reusable cup to be an improvement over a disposable one on an energy basis, you have to use it multiple times, in order to "cash in" on the energy investment you made in the cup. If a cup lasts only ten uses, then each use gets "charged' for one-tenth of the manufacturing energy. If it lasts for a hundred uses, then each use gets charged for only one-hundredth of the manufacturing energy.

But in order to reuse a cup, it has to be washed. The efficiency of the dishwasher, and the efficiency of the energy system that powers it, determine how much energy is required for each wash.1 Hocking assumed a new, commercial dishwasher running on Canadian electricity, requiring about 0.18 MJ/cup-wash.2 The total amount of energy per use is this wash energy plus the appropriate fraction of manufacturing energy, depending on the cup's lifetime. Figure 1 shows how the energies per use of the three reusable cups decline, the more you use them.

The lifetime needed for the energy per use of a reusable cup to become less than for a disposable cup, is called the 'break-even point." In Table 2, the break-even matrix shows how many uses are required for each reusable cup to do better than either disposable cup.

The results are extremely sensitive to the amount of energy the dishwasher requires for cleaning each cup. Hocking's choice for the dishwasher, requiring 0.18 MJ/cup-wash, is barely less than the manufacturing energy of the foam cup, 0.19 MJ/cup. If Hocking had chosen even a slightly less energy-efficient dishwasher as his standard, then the reusable cups would never have broken even with the foam cup.

The lesson of this life-cycle energy analysis is that the choice between reusable and disposable cups doesn't matter much in its overall environmental impact. One should use one's best judgement.

Indeed, in situations where cups are likely to be lost or broken and thus have a short average lifetime, disposable cups are the preferred option.

Stay tuned for my piece: "TCEO of DVDs: Why the RIAA is wrecking our planet and only Bittorrent can save us."