Nuclear powerA new look for nuclear power

By Nancy W. Stauffer

Published 1 July 2015

Many experts cite nuclear power as a critical component of a low-carbon energy future. Nuclear plants are steady, reliable sources of large amounts of power; they run on inexpensive and abundant fuel; and they emit no carbon dioxide (CO2). A novel nuclear power plant that will float eight or more miles out to sea promises to be safer, cheaper, and easier to deploy than today’s land-based plants.

Many experts cite nuclear power as a critical component of a low-carbon energy future. Nuclear plants are steady, reliable sources of large amounts of power; they run on inexpensive and abundant fuel; and they emit no carbon dioxide (CO2).

A novel nuclear power plant that will float eight or more miles out to sea promises to be safer, cheaper, and easier to deploy than today’s land-based plants. In a concept developedby MIT researchers, the floating plant combines two well-established technologies — a nuclear reactor and a deep-sea oil platform. It is built and decommissioned in a shipyard, saving time and money at both ends of its life. Once deployed, it is situated in a relatively deep water well away from coastal populations, linked to land only by an underwater power transmission line. At the specified depth, the seawater protects the plant from earthquakes and tsunamis and can serve as an infinite source of cooling water in case of emergency — no pumping needed. An analysis of potential markets has identified many sites worldwide with physical and economic conditions suitable for deployment of a floating plant.

“More than 70 new nuclear reactors are now under construction, but that’s not nearly enough to make a strong dent in CO2 emissions worldwide,” says Jacopo Buongiorno, professor of nuclear science and engineering (NSE) at MIT. “So the question is, why aren’t we building more?”

The offshore floating nuclear plant
The researchers’ vision for an Offshore Floating Nuclear Plant (OFNP, visible in the slideshow above) includes a main structure about 45 meters in diameter that will house a plant generating 300 megawatts of electricity. An alternative design for a 1,100-MW plant calls for a structure about 75 meters in diameter. In both cases, the structures include living quarters and helipads for transporting personnel — similar to offshore oil drilling platforms.