The Duty of Nuclear Engineers Essay

1I manipulate millions of people with the power that I help create and I also control the fate of all the land a people in a one hundred mile radius. Who am I? 2I am a nuclear engineer. 3-4I will be a nuclear engineer because of the money I will make, the lives I can make an impact on, and I will work with some of the most powerfull stuff we have discovered her on Earth. 5If you have a different job in mind that you really want to do then don’t read this paper for you just might change your mind and if I don’t then don’t even try to persuade me to do something else, for I shall be a nuclear engineer.

My greatest satisfaction, as a technical student, is understanding the practical uses of fundamental mathematics and science models. I am seeking a career which holds the challenge of grasping many technical concepts and applying them a larger solution. That problem solving style is evident in the US Navy’s projection of nuclear power to deter global conflict. As such, I can think of no greater honor than to graduate

Nuclear technology can make deep space exploration possible while making daily life on Earth more comfortable and safer. Nuclear power has minimal threats to our natural environment, and nuclear science can detect and cure many diseases. Seeing all the possibilities related to nuclear engineering, I am easily drawn into this field.

The environmental impacts of nuclear energy are disputed by Diesensorf (2005) and Was (2015). Diesendorf believes that pollutions of nuclear energy are serious while Was (2015) describe it as clean though there are environmental risks. Lenzen, 2008 (cited in Diesensorf, 2005) states that greenhouse gas emission of nuclear energy which based on high degree of uranium mining is 60g/kWh, which is much higher than wind power (10-29g/kWh). He further explains that the decrease of ore grades would increase the use of diesel, which would skyrocket the demand for mining process. Consequently, carbon emission of nuclear energy rises to 131r/kWh in low-grade uranium. Diesendorf (2015) describe this phenomenon is unacceptable. Was (2015), in contrast,

Countless nuclear power plant accidents have been occurring quite frequently since its invention. Some accidents have even been underestimated,

The duties of this occupation, both general and specific, are important to know for becoming a nuclear engineer. The duties for this job include designing or develop equipment, such as reactor cores, radiation shielding, and other instrument that are needed to run a nuclear plant. Some engineers tell the workers what needs to

There are many reasons why I could be a nuclear engineer. First, nuclear engineers get a lot of money. In addition, they use math and science a lot. Lastly, creativity is a main aspect of doing this job. It seems that this this would be a great job for me.

Nuclear engineers have a broad range of responsibilities and duties due to the nature of the position. If a nuclear engineer was employed with a company that built nuclear power plants they would be expected to develop and design the reactor as a whole or many other essential components. Most of the time a nuclear engineer will work in an office at a computer. They spend their day responding to emails, attending meetings, and actually engineering

Nuclear energy institute is a non-governmental organization based in the United States. The organization serves as an independent voice for nuclear energy industry in the U. S. and the rest of the world. Being the voice of the industry, this organization is responsible for legislative and technical regulations and policy making; representation of the industry in matters concerning the government, other non-governmental organizations, industries and corporations all over the world; strategic management and standards control. The main goal of nuclear energy institute is to further improve and increase the use of nuclear energy in order to hasten the process of industrial revolution; energy is the basic need in any type of industry. They

Nuclear chemists need a strong understanding of chemistry, the ability to understand and organize data, mathematical skills to properly interpret and produce calculations, patience, attention to detail, and presenting ideas and concepts in a clear and succinct manner. The equipment they may work with include; computers, laboratory instruments, protective gear, various softwares, etc. The salary and benefits for nuclear chemists are good. The median salary is $80,820/yr and the national average is $77,860/yr, this means most nuclear chemists make around $38.86/hr. Some of the benefits supplied by most employers involve; health/medical care, dental, and vision. Nuclear chemistry is a great career option for those who enjoy being intentional and meticulous, however, there are potential health hazards within this

Plants being constructed by today's standards are 1,600 times safer than early nuclear plants, in terms of the predicted frequency of a large radiation leak”(“Risk of Meltdown”). Would you feel safe living one mile from something than was constructed 1,600 times safer than previous construction? If you would, then you are going to support our debate, research, and presentation is for nuclear energy. Throughout this project we have been collecting data, some supported nuclear energy others didn’t. Recently we did a Geiger counter lab there, it’s shown how much radiation we are exposed to. The dangerous amount of radiation is 5 rems luckily the school only had .0001 to .001 rems per hour. An upside is we do not rely on fossil fuels, and we do

Provided that countries can acquire uranium, they can create clean and safe energy. Generally nuclear power stations are safe. The various barriers and numerous safety measures make it very unlikely for catastrophes to transpire. The most up-to-date plants have a reactor core failure 1 in 1 million years. The proposal of building a plant has to be scrutinized intensely so that the barriers and structure ensure a redundant job in

Nuclear engineering is the practical application of the breakdown of atomic nuclei and/or other sub-atomic physics, based on the principles of nuclear physics. It includes, but is not limited to, the interaction and maintenance of nuclear fission systems and components— specifically, nuclear reactors, nuclear power plants, and/or nuclear weapons. The field may also include the study of nuclear fusion, medical and other applications of (generally ionizing) radiation, nuclear safety, heat/thermodynamics transport, nuclear fuel and/or other related (e.g., waste disposal) technology, nuclear proliferation, and the effect of radioactive waste or radioactivity in the environment.

In the early morning hours of 28th March 1979, the worst disaster in the history of nuclear energy production in the US took place. Unit Two of the Three Mile Island had a meltdown releasing some amount of radioactivity into the surrounding area. The meltdown led to the possibility of Unit 2 of the reactor facility to explode. The ramifications of the accident revealed the conceptual difficulties of assessing social risks and the political difficulties in managing them (Nelkin, March 1981).This paper aims at describing the accident, the post-accident setup and clean-up and the various losses which have been attributed to the disaster. It also intends to develop an understanding of the various complex issues and social vulnerabilities and risks that caused the disaster. The paper raises a very important question about the safety of the nuclear power plants in the world and the risk the reactors pose to the people and environment as a whole.