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HIBON was the First Company for Supplying Positive Displacement Blowers in the 3rd Generation of Pressurized Water Reactor (PWR) in Nuclear Industry.
As recognized supplier in mechanical vapor recompression application, we provide special blower complying with nuclear codes and regulation (RCCM, RCCE…) in last generation of nuclear power station for Flamanville and Hinkley Point Projects.
In complying with some of highest standards of the industry, we guarantee you top level of :
In being involved in nuclear industry, Hibon is supporting reduction of CO2 emission to make our life better.
For a liquid to be concentrated it first must be heated in an evaporator, creating steam that is then sucked in by a booster to compress it, thereby also increasing its temperature.
This superheated vapor is distributed to a heat exchanger to be condensed, using the extracted heat to increase the temperature of the liquid being concentrated and then reinjecting that into evaporator. This process loop allows the production of a new quantity of steam. Using MSC, a concentrate (to be landfilled or incinerated) and a distillate (or condensate) are recovered for reuse. This results in a notable reduction in the volume of liquid effluents and the consumption of cooling water to even zero discharge in some cases.
HIBON is well known for its expertise in MSC especially with their rotary lobe steam blowers that achieve increased thermodynamic potential of steam (increased degree of superheating) in a less expensive method than producing directly superheated steam.
Hibon Positive displacement blowers are also used for typical treatment processes involved in nuclear fuel cycle operations and particularly in radioactive waste removal processes.
It's important to note that the treatment processes involved in the nuclear fuel cycle are highly regulated and subject to strict safety and environmental standards.
Hibon products are installed in the Coolant Storage and Treatment System (TEP) building, for the treatment of this effluent (TEP). They suck and compress the steam from the evaporation column for separating water of boric acid. The steam-pressed on heats the bottom of that column through a tube bundle.
Hibon products are also installed in the Effluent Treatment Building including the non-recycled Liquid Waste Processing System (TEU [LWPS]).
The TEU [LWPS] treats process drains, chemical drains and floor drains from the RPE [NVDS] of the EPR unit(s). The treatment performed to reduce the radioactivity discharged. The HIBON process positive displacement blowers (vapor compressor) sucks and compresses the vapor from the column decontamination
WHAT IS AN EPR?
EPR is a reactor revolutionary with pressurized water system. It combines advanced safety features with enhanced efficiency and power output.
The EPR was developed as a joint project by several European companies, including Areva (now Framatome) and Siemens.
It is designed to meet stringent safety standards and provide reliable electricity generation.
The EPR has been deployed in several countries, including France, Finland, UK, and China, with varying degrees of success and construction challenges. It represents an advancement in nuclear reactor technology, incorporating improved safety features, higher power output, and enhanced efficiency compared to earlier generations of reactors.
So, the EPR reactor takes existing technology a step further into the future. It incorporates all recent advances in the areas of nuclear safety, environmental protection, technical performance and economic efficiency, delivering safe and competitive power without emitting greenhouse gases.
The EPR design incorporates extremely reliable safety features. More specifically, its safeguard systems comprise four redundant trains, each of which is able to totally fulfill one of the two essential safety functions (stopping the nuclear reaction and cooling the reactor), required to protect man and the environment in any situation.