"Thomas A. Easton - The Biopump Solution" - читать интересную книгу автора (Easton Thomas A)
biopump
solution
Man's inventive mind masters all material problems.
THOMAS A. EASTON
The world of science, like the world in general, has been plagued in recent years by shortages of
energy, funding, and respectable employment for those of little education and few skills, as well as by
excesses of bureaucrats. Expensive, energy-intensive research is now more difficult than ever to perform,
partly because costs are higher now than ever before and partly because few foundations are now
conspicuous consumers; the scientific amateur has gone the way of the dodo; and both problems are
complicated by the proliferation of local, state, and federal agencies and their requirements that would-be
researchers show degrees, certificates, permits, licenses, and funding before being either allowed to work
or allowed to publish.
It is, however, possible to avoid all these problems. The human race is beginning to realize that the
key to an ecologically sound future is the concept of zero growth. That of progress must be abandoned,
at least in the sense that it means an ever-growing strain on our resources. We must make better use of
our present resources by recycling materials, increasing the efficiencies of our machines, and exploiting
hitherto neglected sources of energy.
One of the latter, and one whose exploitation could ease all of the above-mentioned problems, is the
phenomenon of peristalsis. This phenomenon is used by all the higher members of the animal kingdom
for the movement of liquids, slurries, and small solid fragments, but it has so far been tapped
commercially only in the design and use of small peristaltic pumps for biomedical applications. These
maximum of less than three liters per minute as, for example, the pumps produced by Harvard
Apparatus), and (2) require a continuous energy supply apart from that required to maintain their
operators.
Each of these drawbacks may now be defeated with a new device, henceforth called the Biopump.
(It has not yet been built, but anyone who wishes to try may feel free to do so, and patent it as well, if he
wishes, as long as he makes the proper acknowledgements.) It can achieve flow rates of well over three
liters per minute (estimate based on the observation that I can swallow 200 milliliters in four seconds),
and it requires no external energy input. The latter benefit is of particular significance during these days of
an energy shortage and means that use of the Biopump will not be affected by brownouts, blackouts, or
strikes. It also means that use of the Biopump will not adversely affect the ecology of any region in which
it is used.
The Biopump consists of a flexible, thin plastic tube, one end of which is equipped with an input
hose-fitting and one end of which expands into a bulbous reservoir with a second hose-fitting placed to
one side. The latter fitting couples the reservoir to a tube of a heavier-gauge plastic which ends in an
output hose-fitting. Each of the components is made of biologically inert materials.
To prepare the Biopump for use, the thin plastic tube is threaded through the human esophagus and
the input fitting is mounted through the cheek in such a way that an input hose may be coupled to it. The
reservoir is placed in the stomach with its hose-fitting traversing the stomach wall in such a way and
position that the second, more rigid hose may connect the reservoir to the last hose-fitting at the navel,
where an output hose may be attached. Once in place, as shown in the figure, the Biopump forms a
continuous path from cheek to navel by which the operator can propelтАФby swallowing and the
consequent esophageal peristalsis and stomach churningsтАФliquids, slurries, and small solids from one
vessel or level to another, while backflow is prevented by the natural valving of the esophagus. Several
Biopumps arranged in parallel can transport virtually any quantity of material. Arranged in series, they can
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