Many might be alarmed to learn of a homemade nuclear reactor being built next door. But what if this form of extreme DIY could help solve the world's energy crisis? By day, Mark Suppes is a web developer for fashion giant Gucci. By night, he cycles to a New York warehouse and tinkers with his own nuclear fusion reactor. The warehouse is a non-descript building on a tree-lined Brooklyn street, across the road from blocks of apartments, with a grocery store on one corner. But in reality, it is a lab. Read more
When the Apollo astronauts were on the moon, they only stayed a few days at a time, and batteries or fuel cells did them just fine. But now NASA is talking about astronauts staying for weeks or months. Batteries just won't do it. They're going to need a long-term source of power for their exploration and scientific activities. Space experts are proposing all sorts of power sources, from solar panels to king-sized fuel cells. One of most popular ideas is a small nuclear reactor. Read more
The radioactive fallout from a nuclear accident that rocked Britain 50 years ago was underestimated, scientists say. In 1957, a fire at the Windscale nuclear reactor in Cumbria led to a release of radioactive material that spread across the UK and Europe. But new research claims the incident generated twice as much radioactive material and caused dozens more cancers than was previously thought.
The authorities in Ukraine have approved a giant steel cover for the radioactive site of the world's worst nuclear disaster - Chernobyl. Ukraine has hired a French firm to build the structure to replace the crumbling concrete casing put over the reactor after the 1986 accident. The casing project is expected to cost $1.4bn (£700m).
Title: Development of a New Monte Carlo Reactor Physics Code Author: Jaakko Leppänen
Monte Carlo neutron transport codes are widely used in various reactor physics applications, traditionally related to criticality safety analyses, radiation shielding problems, detector modelling and validation of deterministic transport codes. The main advantage of the method is the capability to model geometry and interaction physics without major approximations. The disadvantage is that the modelling of complicated systems is very computing-intensive, which restricts the applications to some extent. The importance of Monte Carlo calculation is likely to increase in the future, along with the development in computer capacities and parallel calculation.
An interesting near-future application for the Monte Carlo method is the generation of input parameters for deterministic reactor simulator codes. These codes are used in coupled LWR full-core analyses and typically based on few-group nodal diffusion methods. The input data consists of homogenised few-group constants, presently generated using deterministic lattice transport codes. The task is becoming increasingly challenging, along with the development in nuclear technology. Calculations involving high-burnup fuels, advanced MOX technology and next-generation reactor systems are likely to cause problems in the future, if code development cannot keep up with the applications. A potential solution is the use of Monte Carlo based lattice transport codes, which brings all the advantages of the calculation method. So far there has been only a handful of studies on group constant generation using the Monte Carlo method, although the interest has clearly increased during the past few years. The homogenisation of reaction cross sections is simple and straightforward, and it can be carried out using any Monte Carlo code. Some of the parameters, however, require the use of special techniques that are usually not available in general-purpose codes. The main problem is the calculation of neutron diffusion coefficients, which have no continuous-energy counterparts in the Monte Carlo calculation. This study is focused on the development of an entirely new Monte Carlo neutron transport code, specifically intended for reactor physics calculations at the fuel assembly level. The PSG code is developed at VTT Technical Research Centre of Finland and one of the main applications is the generation of homogenised group constants for deterministic reactor simulator codes. The theoretical background on general transport theory, nodal diffusion calculation and the Monte Carlo method are discussed. The basic methodology used in the PSG code is introduced and previous studies related to the topic are briefly reviewed. PSG is validated by comparison to reference results produced by MCNP4C and CASMO-4E in infinite two-dimensional LWR lattice calculations. Group constants generated by PSG are used in ARES reactor simulator calculations and the results compared to reference calculations using CASMO-4E data.
Instructions on how to build a nuclear reactor have been revealed from five sealed envelopes that have lain hidden for almost 70 years. The documents were sent to the UK's Royal Society for safekeeping by James Chadwick, discoverer of the neutron, during the World War II. He felt their contents, which described cutting-edge science, were far too sensitive to publish at the time. The envelopes were recently discovered in the science academy's archives. They were opened on Thursday to mark the 75th anniversary of the neutron's discovery. The publication of James Chadwick's paper, The Existence of a Neutron, kick-started the field of nuclear physics.