In France, CEA and EDF had started to build Phénix in 1968, which was powered up in December 1973. It was a pool-type liquid-metal fast breeder reactor cooled with liquid sodium and a small-scale prototype fast breeder reactor, located at the Marcoule nuclear site, near Orange, France. Phénix had to be stopped for refueling every two months. Between 1990 and 1996, it was run sporadically. When the project for the subsequent full-scale power-plant prototype Superphénix was started in 1986, it was generally felt that no more experimental FBT prototypes were needed. Superphénix demonstrated very poor reliability and had a historical capacity factor less than 7%. Many of these problems were solved over time, and by 1996 the prototype was reaching its design operational goals. The Russian BN-600 reactor is a similar sodium-cooled fastbreeder reactor, built at the Beloyarsk Nuclear Power Station, in Russia. Designed to generate electrical power of 600 MW in total, the plant dispatches 560 MW to the Middle Urals power grid. It has been in operation since 1980 and represents an evolution on the preceding BN-350 reactor. In 2014, a larger version of the reactor, the BN-800, began operation and reached full commercial operation in August 2016.
Planning
In late 1972, Germany, Belgium and the Netherlands charged the Siemens subsidiary Interatom to build a fast breeder. The German government wanted to limit energy import, and a breeder facility was required to use the limited resources efficiently as the uranium supply in Germany was limited. The building commenced at the end of the same year. The European Council established on 20 May 1975 the Joint Undertaking 'Schnell-Brüter- Kernkraftwerksgesellschaft mbH'.
1977: Increasing public doubt about the safety of nuclear energy culminates in the first demonstration, involving about 40,000 people marching in the streets of Kalkar.
March 28, 1979: Three Mile Island suffers a partial meltdown and a local anti-nuclear movement causes open questioning of the project. This discussion leads to an inquiry by a commission of the Bundestag. Building is interrupted for 4 years as the commission concludes that the safety of the facility needs to be upgraded in light of the difficult to control process of fast breeders, along with concerns about the coolant. The interruption along with the redesign of the safety features raise the costs of the project significantly. The local state government of North Rhine-Westphalia turns against the project.
1985: SNR-300 is completed. The reactor is taken into partial operation. The sodium coolant is already running through the coolant loop and has to be kept hot using electric heating elements so it does not solidify. The reactor is ready to receive nuclear materials. In this phase, the running costs are over 5 million per month. The state government blocks the opening of the plant, against the wishes of the federal government. As elections are coming up, the German government unofficially decides not to take SNR-300 into operation just yet.
At this point neither the country government, nor the local state government want the facility to become operational. Plans for a second facility, SNR-2, planned to produce 1,500 megawatts, are officially cancelled around this time.
1991: The official cancellation of the SNR-300 is offered on 21 March. The demolition of parts of the facility costs another 75 million euros. The unused machinery is put on sale. The reactor core is transferred to storage elsewhere. The breeder material, already bought for the operation of the facility, is transferred to France where it is mixed into MOX fuel, which is used by a number of France's nuclear reactors.
1995: The facility is put up for auction by way of an announcement in the newspapers. The Dutch investor/developer Hennie van der Most buys the property for 2.5 million euros. The site is transformed into an amusement park named Kernwasser Wunderland. It includes a hotel with 400 beds. In 2005 it was renamed into Wunderland Kalkar.
