(Excerpts from a talk by Professor D.D. Kosambi to the Rotary Club of Poona, on July 25, 1960.)
“The sun gets most of its energy from fusion. Four nuclei of hydrogen are squeezed together under immense heat and pressure to form one of Helium. A certain amount of mass left over in the process is converted directly into energy, by Einstein’s Law. This has been done on earth in the hydrogen bomb.
“… Those who say that atomic energy can compete with thermal or hydro-power, carefully omit to mention the fact that the preliminary costs have always been written off to someone else’s account usually that of some government. The advanced countries have quietly reduced their atomic power programs. The prestige of having atomic power stations does not compensate the extra expenditure or the extra danger involved, Where does that leave us in India? We do need every available source of power quickly. Can we utilise atomic power for national progress? This question has already been answered in the affirmative by the high command. The papers inform us that another hundred crores or more are to be devoted to this purpose beyond undisclosed millions already spent. It was announced in August 1956 that India had joined the ranks of the atomic-energy producing countries. Actually, we were not then producing any atomic power. Though a second reactor costing another ten crores of rupees has gone into operation, and the staff has reached over two thousand highly trained graduates, we still, produce no utilisable atomic power….
“I do wish to point out that the main work in producing atomic energy has already been done without cost to India by a permanent source, which has only to be utilised properly. This generous source is the sun, which goes on pouring its blasting rays into every tropical country, at an uncomfortable rate.
“Can solar energy be used directly? The answer is yes. The USA, Russia or England, for example do not receive so much direct solar radiation as India. There is no reason why we should ape them in all things, including the development of atomic energy at a fantastic cost with low-grade Indian uranium. The catch in solar energy is its storage. The current you may want at night can be produced irregularly in the daytime.
“This is not an insoluble difficulty. Quite efficient forms of storage batteries are known. It is possible to combine several uses with mechanical storage. For example, water could be pumped up into 50-foot village towers during sunlight hours, and then allowed to run out for irrigation, or home use, through low-pressure turbines that generate electricity whenever wanted. This is not very efficient at the second stage, but the main purpose of augmenting our poor water supply will have been efficiently served, village-by-village. The most important advantage of solar energy would be decentralisation. Solar power would be the best available source of energy for dispersed small industry and local use in India. If you really mean to have socialism in any form, without the stifling effects of bureaucracy and heavy initial investment, there is no other source so efficient. Take the simple problem of afforestation, which alone can change India’s agriculture, preserve her rapidly eroding soil, and increase production. This problem is insoluble unless people have cheap fuel for cooking, so that they need not cut down trees.
“We have the real cost-free source of atomic power, the sun, at our disposal, for more than eight months of the year.
The Chinese use semi-conductors directly to produce enough electricity even from the waste heat of an ordinary kerosene lamp to run a radio set; their appliances are on the international market now. What India could use best in this way still remains to be determined.
“The principle involved in the use of atomic energy produced by the sun as against that from atomic piles is parallel to that between small and large dams for irrigation. The large dam is very impressive to look at, but its construction and use mean heavy expenditure in one locality, and bureaucratic administration. The small bunding operation can be done with local labour, stops erosion of the soil, and can be fitted into any corner of the country where there is some rainfall. It solves two fundamental problems: how to keep the rain-water from flowing off rapidly into the sea, unused; and how to encourage local initiative while giving direct economic gain to the small producer.
“Every notable advance in man’s control over new sources of energy has been hampered by outworn superstition or obsolete social forms. Fire is regarded today as a convenient tool it the service of humanity. Primitive man thought it necessary to worship fire as a god. Agni received human and animal sacrifice; vestal virgins might be dedicated to his service. Is it less miserable a superstition that calls for the sacrifice of millions of men and animals, living or as yet unborn, to atomic tests and radio-active fallout?…”
