Let me start by dispelling the notion that I think smaller, modular, manufactured nuclear power systems – often called SMRs or micro reactors – are the be all and end all solution to anything, including climate change or energy security.

Though not THE solution, they have the potential to be a crucial, uniquely capable part of a fully-integrated, 0% emission climate-solving grid.

The best of the breed build on lessons from aircraft manufacturing, submarine construction, electric vehicles, wind & solar and even computers. They are leavened with six decades worth of experience in building, operating and maintaining extra large nuclear systems. They address some of the public relations challenges that have plagued very large reactors. //

As former submarine engineer officer who also had the rare opportunity to plan and budget for fleet level nuclear power training, maintenance and construction programs, I have a personal understanding of how economies of series production and standardization work to help keep costs under control and schedules predictable.

It is enlightening to see how much costs fall when you can train a group of operators in a common speciality and send them out to several dozen plants that have identical equipment, spare parts lockers and layouts. It’s also easy to see how maintenance procedures can be written once and used by all and how alterations can be planned, reviewed and implemented. These are just a few of the examples I can list. Rules protecting confidential information prevent me from sharing quantified details. Space prevents me from listing other examples.

It shouldn’t surprise anyone who has made anything that people learn to do things with experience or that doing the same thing repeatedly produces better results the more often the task is done. Those learning curve-related improvements don’t require mass production of thousands or millions of units, they start improving cost and performance with the second unit. //

The modern renewable industry – wind and solar energy collection systems – demonstrate the utility of replication. Starting from the high cost systems of the early 2000s, the industry took advantage of tax credit and mandates originally designed to help them build markets and achieve scale economies. Their impressive cost reduction performance is more attributable to the economy of learning by doing than it is to technological innovations and new inventions.