NUCLEAR FISSION REACTORS

Brand Owner (click to sort) Address Description
NANO NUCLEAR Nano Nuclear Energy Inc. 1411 Broadway, 38th Floor New York NY 10018 Nuclear fission reactors; Nuclear generators; Nuclear power plants; Nuclear reactors;Calibration of nuclear density gauges; Consultation in the field of health risk assessment, namely, prediction and assessment of health risks to public and private agencies, facilities, individuals and locations following an accidental or terrorist caused release of chemical, biological, radiological or nuclear materials; Designing plant components and equipment for nuclear power plants; Research and development in the field of nuclear energy;
NANO NUCLEAR ENERGY Nano Nuclear Energy Inc. 1411 Broadway, 38th Floor New York NY 10018 Nuclear fission reactors; Nuclear generators; Nuclear power plants; Nuclear reactors;Calibration of nuclear density gauges; Consultation in the field of health risk assessment, namely, prediction and assessment of health risks to public and private agencies, facilities, individuals and locations following an accidental or terrorist caused release of chemical, biological, radiological or nuclear materials; Designing plant components and equipment for nuclear power plants; Research and development in the field of nuclear energy;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. Process for preparing oligomers of alkenes having from 4 to 8 carbon atoms from a feed stream comprising such alkenes or hydrocarbon streams in which such alkenes are present over a nickel-containing, heterogeneous catalyst in n successive adiabatically operated reactors, where n is 2 or an integer greater than 2, at from 30 to 280° C. and pressures of from 1 to 300 bar, where the feed stream has a temperature Tin when it enters the first reaction zone, experiences a temperature increase in each reaction zone and, if this temperature increase is more than Tin+20° C., is brought to a temperature in the range Tin±20° C. before it enters a subsequent reaction zone, wherein the feed stream is divided and the feed substreams obtained in this way are fed to the 2 reactors, or if more than 2 reactors are used to at least 2 of the reactors, with addition of fresh feed in such a way that the temperature in one of the reactors is at most 20° C. higher than that in each of the other reactors used.