Industrial Metabolism: Theory and Policy Robert U. Ayres

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Title: Industrial Metabolism: Theory and Policy Robert U. Ayres

1
Industrial MetabolismTheory and PolicyRobert
U. Ayres

2
Overview

3
Introduction to Industrial Metabolism

Definition the whole integrated collection of
physical processes that convert raw materials and
energy, plus labor, into finished products and
wastes in a (more or less) steady-state
condition.
Metabolism Analogous to the process of a living
organism
Takes in food for self/storage and excretes
wastes.
Differences
Organisms reproduce themselves, specialized,
change over long period of time.
Firms produce products or services, not
specialized, can change quickly

4
The Materials Cycle

Closed cycles are self-sustaining with no
external sources or sinks and are in steady
state.
Open cycles are unsustainable, using materials
without replenishing sources.
Must stabilize or will ultimately fail
The Biological cycle is a closed cycle, while
our industrial cycle is an open cycle.

5
The Material Cycle

Industrial system of today Unsustainable
Can this stabilization be obtained with a
technological fix?
If so, how?
If not, how long will the current system last?
Biological system
Has not always been a closed system
Responded to inherently unstable situations
(open cycles) by inventing new processes
(organisms) to stabilize the system by closing
the cycles.
Time scales
Biological system took billions of years
Industrial system does not have that much time

6
Measures of Industrial Metabolism

Recycling and dissipative loss are the fates of
all waste materials
There are 3 classes of materials use
Those that are recyclable under present
technology and cost
Those that are recyclable, but not under present
tech. and cost
Those that are not recyclable
For the industrial system to function as a closed
cycle, it must recycle or reuse nearly all
materials

7
Measures of Industrial Metabolism

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Measures of Industrial Metabolism

Potentially recyclable materials
Are they being recycled and reused?
Recycle (reuse) vs. Dissipation of a material
shows how far sustainability is from being reached

9
Policy Implications of the Industrial Metabolism
Perspective

Industrial metabolism is holistic in theory
All interactions are considered together
resulting in the best for the system as a whole
Short term solutions and policies, however, are
being enforced
Such policies are usually more harmful and costly
in the long run
Ex.s Pollution and coal as a fuel
Air and water pollution reduced, but land
disposal increased
Clean coal technology could extend coal as fuel,
but effects of byproducts extended as well

10
Critique

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Sulfur Example

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Comparison human vs. natural

Where is the natural to compare with the
anthropogenic?
What are the percentages referring to?
In all cases, with the possible exception of
nitrogen, the anthropogenic contributions exceed
the natural flows by a considerable margin.
Really?

13
Comparison human vs. natural (Can you interpret
this?)
14
Material Source vs. Material Path

Should be less concerned with how much of
something is left than with what path used
material takes
How much oil/steel/etc. is left to be extracted
from natural sources is not a good measure of
evaluation for industrial processes
A better way is to quantify how much recycling of
material is going on What do we do with what we
use?

15
A more holistic view