DE2557206C3 - Method for separating uranium isotopes - Google Patents

Claims (1)

Claim: A method for separating uranium isotopes, which works on the principle of selective excitation of vaporous compounds, in particular with laser radiation, and in which the excited molecules are separated from the unexcited ones using chemical or physical methods, characterized in that uranium aluminum isopropoxide of the formula U [ Al (ISO-OC ₃ H ₇ ) ^] _{4 is} used. The present invention relates to an isotope separation process for uranium, which is based on the principle of selective Excitation of vaporous compounds, especially with laser radiation, works. It is known that Molecules that are made up of at least two different elements, lying in the infrared range absorb electromagnetic radiation. The infrared absorption spectra reflect the fineness of the Structure of the molecules and have their cause in the energy transitions of the rotational oscillation states. Since the vibrational energy of a molecule depends essentially on the mass of the atoms involved, Molecules that contain one type of element with different isotopes also have different infrared absorption lines. This fine structure of the rotational oscillation spectra can be used for isotope separation if the emission line is a Laser with the rotational oscillation line of the molecule in question, the one to be separated or enriched Atom type is brought into resonance and thus excited. The molecule excited in this way can then from his higher energy level .with suitable partners for a chemical reaction to be brought. In this context, reference is made to DE-OS 19 59 767, as well as the magazine "Natural Sciences" 61, 1974, pp. 257-259. In addition to the chemical separation of excited isotope compounds, a physical separation is also possible, such as they are described in DE-PS 23 11 584, for example is Such separation processes only promise a technical and economic benefit if a sufficient throughput can be achieved. But this in turn depends on the vapor pressure of the ίο relevant uranium compound. A uranium compound with a sufficiently high vapor pressure is UF ₆ , which was also largely used as a basis for the previous separation processes. In addition to the throughput, a sufficient isotope shift in the excitation frequencies of the laser radiation is also necessary for the economy of the enrichment. Since this is relatively small in the case of the UF ₆ , an attempt was made to circumvent this difficulty by performing a special procedure. In parallel to these developments, the task was therefore to find other uranium compounds which, with sufficient stability, also have sufficient vapor pressure as a prerequisite for every separation process. According to the invention, this object is achieved by using uranium aluminum isopropylate of the formula U [AL (iso-OC ₃ H ₇ ) 4t as the vaporous compound. Extensive studies have shown that this compound alone is suitable for isotope separation from all other organic uranium compounds. This compound has at 225 ° C has a vapor pressure of about 150 millibars, their decomposition temperature is above 27O ⁰ C, so that it has the required thermal stability for the separation of isotopes in the initial state. The measure according to the invention using uranium aluminum isopropylate is suitable for the development work in the field of isotope separation, which is particularly important for energy generation, to a to provide a broader basis and thus to promote and accelerate technical progress.