新西兰教育学论文代写-核聚变提出的关键问题是核聚变作为未来的动力来源。论文研究问题谎言如下:“把核聚变当作未来的能源安全吗?”维持和确保核聚变的持续需要大量的能量、热量和压力。核聚变不同于裂变反应，因为当核聚变反应系统失去控制机制时，就不会形成核反应。如果没有大量的压力和热量，核聚变反应是不可能独立进行的。核聚变工厂的设计不需要过多关注冗余或安全，因为它不存在任何发生反应的机会。从所选择的资料来源来看，核聚变显然已被视为物理学基础科学研究的圣杯。更明显的是，利用太阳所做的聚变将使社会获得无限的能量成为可能(Ongena and Ogawa, 2016)。如果以最佳方式实施核聚变，可以提供无限的能源。
Increasingly scientists have become intrigued over the prospects that in the nearing future, it is possible for a reactor to replicate the energy source of the sun over planet earth through innovation of scientific nature and technological nature (Pedraza, 2017).
From the findings of the sources, there are apparently several benefits related to nuclear fusion. These benefits are as follows:
No waste: The key by-product of the process is only helium which does not have any toxicity. This is the major advantage of making use of fusion reaction.
Fuel obtained is unlimited: All the elements required for creation of energy through use of this process can either be prepared or can be naturally extracted. This implies that energy supply obtain can be both, sustainable for life and unlimited without use of any other source of energy in the process. The key ingredient required is sea water in its distilled form Deuterium.
Simplified control: As fusion takes place, there is a lesser chance of any occurrence of a chain reaction. This in turn allows for nuclear fusion to be performed in a controlled and safe way in comparison to other nuclear energy forms.
Power does not cost expenses: Till now, the key benefit of this power form lies in its cheapness. It only costs 3 cents for every KW hour (Pedraza, 2017).
These benefits make the nuclear fusion reaction a safe one but the fusion system comes with several disadvantages which would make fusion reaction inacceptable. These drawbacks are as follows:
Extreme nature of heat is required for fusing the atoms nuclei. This needs energy in large quantity which nears to as much energy that is produced. This is the reason why nuclear fusion is not considered as a plausible situation.
Expensive costs of construction: The experts, facilities and scientists that are required for successfully running a fusion plant are very costly. In alignment with such higher costs, harnessing the energy created further requires more cost.
The concept of fusion is not understood properly. The fusion system is a newer energy form and the key way that it can be made to good use, when produced on large scale is that perfection of cold fusion is gained. The complete danger scope and influences of fusing nuclear energy is not completely understood because it has not been done in a practical manner.
There is no material for the task. The key issue with nuclear fusion is the perspective that there is no any known material, which has the ability of handling such higher heat required for nuclear fusion. Unless there is a material which has the ability of sustaining higher temperatures, it is not possible to see this energy source’s future (Ongena and Ogawa, 2016).
From the findings on the research question, it is evident that nuclear fusion does not cause any damage to the society or human beings individually, but it has several flaws which still make it distant as a good source for energy.