Indian Journal of Energy

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Design and Implementation of a Novel Nuclear Energy Conversion Mechanism


Affiliations
1 Department Head in the Dark Lighting National Laboratory, New Jersey(NJ), Vanderbuilt University, United States
 

The design theories of modern nuclear technologies usually rely on modern electro-magnetic field theories using ANSYS and NUCLEUS softwares to implement on PCs. However, the Western House Nuclear Industry Foundation Project ID :0002425010-FengAn requests me to give a illustration about how to do energy conversions inside a typical two-and-a-half-stage nuclear power reactors together with novel computer simulations' design approaches. To my point of view, the nuclear power reactors should have difficulty when loading nuclear fuel inside the reactors' cores, multicore- ing processing should be applied using a type of virtual cores technologies and cloud computing. While modern common computing technologies, even the famous ubiquitous and mobile computing theories are not appropriate to perform the fast and true real time design requirements of the nuclear actions. In this literature, the design theory is mainly based on OPENGL and HFSS using GCC compiler on a common Fedora 16 operating system based Laptop. Typically, the design methodologies are closely related to power consumptions wasted using deep-density-hydrogen- fuels, such as "heavy water" etc. Usually, the design theory is primarily design principles in Computer Sciences Area and Modern Statistical Mathematical Simulations using Maple Software, and Mathematical Theory Modeling(MTM) using Lingdo&lingo softwares are also applied here.

Keywords

MAPLE, MTM, LINGDO, Lingo, HFSS, OPENGL
User
Notifications

  • This Research paper is also a reflection of the wrong dones of People in Chinese Academy of Sciences, such as Li Ke Jie,

  • Sun Li Ming, etc.

  • According to their theories, the design approach of the nuclear power plant should be to pile up many of the nuclear-usage materials, so that the so called “jinzhenri effects” will not happen again.


Abstract Views: 557

PDF Views: 308




  • Design and Implementation of a Novel Nuclear Energy Conversion Mechanism

Abstract Views: 557  |  PDF Views: 308

Authors

Feng An
Department Head in the Dark Lighting National Laboratory, New Jersey(NJ), Vanderbuilt University, United States

Abstract


The design theories of modern nuclear technologies usually rely on modern electro-magnetic field theories using ANSYS and NUCLEUS softwares to implement on PCs. However, the Western House Nuclear Industry Foundation Project ID :0002425010-FengAn requests me to give a illustration about how to do energy conversions inside a typical two-and-a-half-stage nuclear power reactors together with novel computer simulations' design approaches. To my point of view, the nuclear power reactors should have difficulty when loading nuclear fuel inside the reactors' cores, multicore- ing processing should be applied using a type of virtual cores technologies and cloud computing. While modern common computing technologies, even the famous ubiquitous and mobile computing theories are not appropriate to perform the fast and true real time design requirements of the nuclear actions. In this literature, the design theory is mainly based on OPENGL and HFSS using GCC compiler on a common Fedora 16 operating system based Laptop. Typically, the design methodologies are closely related to power consumptions wasted using deep-density-hydrogen- fuels, such as "heavy water" etc. Usually, the design theory is primarily design principles in Computer Sciences Area and Modern Statistical Mathematical Simulations using Maple Software, and Mathematical Theory Modeling(MTM) using Lingdo&lingo softwares are also applied here.

Keywords


MAPLE, MTM, LINGDO, Lingo, HFSS, OPENGL

References