By CHARLES B. CLEVELAND
Chicago

From doublethink to 'Speakeasy': Jumping from 1984 to 2001

OVER 1,700 SCIENTISTS—out of an overall staff of 4,700 persons—are employed at Argonne National Laboratory. This concentration of scientific expertise is devoted to energy research and myriad projects in the physical, biomedical and environmental sciences.

A visitor hears a new language: fast breeder atomic reactors, neutron hodoscope, gamma rays, thermal pollution, radio-ecology, spin fluctuation studies, magnetic properties of actinide compounds, rubidium generator. There is even something with the intriguing name of "Speakeasy," a computer programming language developed at Argonne to make scientific computations faster and easier.

But in the hands of an experienced guide such as Dr. Robert G. Sachs, the director and one of the world's leading physicists, it translates into projects affecting all of us: the production of an electrical car to replace today's gas guzzlers, turning the sun's rays into energy, making Illinois coal usable without polluting the air, a cure for cancer, and new techniques for making heart bypass operations and similar operations safer. All this is taking place in a setting that looks like some unlikely hybrid of a college campus and a nature center complete with a herd of white fallow deer.

The laboratory is located on a 1,700-acre site 27 miles southwest of downtown Chicago, not far from where the Springfield-Chicago Highway 66 joins the Tri-State Tollway. It operates under a three-way contract involving the University of Chicago, the federal government's Energy Research and Development Administration and a group of some 30 midwest universities. It is sometimes confused by the public with the newer project 25 miles west of Chicago at Batavia where a giant accelerator is banging away at the deeper secrets of the atom. Although the public knows little about Argonne, it is now almost 30 years old and has assets of more than $450 million and an operating budget of about $135 million a year.

More than half the laboratory's efforts are connected in some way with the energy crisis. A top priority item is the liquid metal fast breeder reactor, a newer and not yet commercially available source of atomic-generated energy, which is considered to be a potentially inexhaustible source of power. Still further ahead is atomic energy by "fusion"—energy from combining atoms rather than "splitting" them. Argonne is trying to get this together also.

Dr. Sachs emphasizes, however, that the laboratory is not wedded to atomic energy development, but is working on "just about any other kind of energy source you could think of." Coal is considered one of the most important of these sources. One important laboratory project is seeking ways to burn coal "in an environmentally acceptable manner"—that is, pollution-free. This could be important to the state since Illinois coal deposits are among the richest in the world. There is a lot of energy buried under the state. The problem is that when this energy is released during combustion, a lot of polluting sulfur is also released—into the air we breathe. Two ways around this are to convert coal into a gas or liquid first, or to burn coal in specially designed boilers. Dr. Sachs feels that coal and nuclear energy rank as the two likeliest short-term answers to our energy shortages.

Converting solar energy into usable energy is still largely a visionary scheme to all except the researchers at Argonne. The problems are huge. It would take a mirror more than 30 miles square to collect the energy put out by the equivalent power plant today. Just tracking the sun is a major engineering feat; sunlight has to be reflected into a converter and the converter casts a shadow on the mirror used to collect the sunlight.

One step toward what Dr. Sachs and others believe will be eventual success has already occurred. A researcher in high energy physics who was studying very minute fundamental particles needed a machine for one of his experiments. It turned out to meet one of the needs for solar energy—collecting light over wide angles.

Scientists bristle at the word "breakthrough" because most scientific advances are steady, a sort of planned evolution. Despite this, the term does fit the development of new high-performance batteries which make the electrical car a real possibility for highway travel. The same principle is also being applied in an effort to find a way to store electrical energy. If this were accomplished, it would even out the daily peaks and valleys of electrical demand and the seasonal ups-and-downs as well.

Combatting pollution gets a lot of attention at Argonne. Underway are elaborate studies of heated water (from factories and atomic plants) on Lake Michigan and other water supplies and what to do about it. Effects of radiation are studied, including the impact—from many years past—of radium on women who painted fluorescent materials on watch dials and, by licking the brushes, unconsciously contaminated their bodies. These are studies which will help guide surgeons in organ transplants; still others in plant biology.

Argonne is, in many ways, the world of tomorrow — today. 

382 / Illinois Issues / December 1975