After 1 year of negative results with NiH experimenst, the author will continue to publish his efforts in 2018.
http://www.lenr.com.cn/index.p…dex&a=show&catid=7&id=839
https://translate.google.com/t…ow%26catid%3D7%26id%3D839
Good struggle!
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冷聚变世界实验室开始新的镍氢冷聚变实验
Cold Fusion World Lab begins new nickel-metal hydride cold fusion experiment
2017年冷聚变实验室进行了多达几十次的镍,氢化铝锂冷聚变实验,实验采用不同的尺寸规格镍粉,包括纳米级(不同纳米尺寸)的,微米级(还原镍粉,羰基镍粉)的,实验中并没有出现预想的超热。
In 2017, the Cold Fusion Laboratory conducted dozens of nickel-lithium aluminum hydride cold fusion experiments. Experiments used different sizes of nickel powder, including nanoscale (different nanometer size), micron (reduced nickel powder, carbonyl). For nickel powder, the expected hyperthermia did not appear in the experiment.
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经过笔者将近一年多的实验,并没有发现镍氢反应中出现的明显的超热现象(超过5%即可认定为明显过热),这个和世界上大多数的镍氢冷聚变实验结果基本吻合。本着客观,理性,研究的精神,笔者在2018年开始了新一轮的镍氢冷聚变实验,如有进展我会及时发布结果。镍氢冷聚变技术应用前景广阔,但实现的道路并不平坦。
After more than one year of experimentation, the author did not find any obvious superheating phenomenon in the nickel-metal hydride reaction (more than 5% can be regarded as apparent overheating), which is basically consistent with the results of most nickel-hydrogen hydrogen fusion experiments in the world. . In the spirit of objectivity, rationality, and research, the author started a new round of nickel-metal hydride fusion experiments in 2018, and I will publish the results in a timely manner if there is any progress. Ni-H2 cold fusion technology has broad application prospects, but the road to implementation is not smooth.