对!!
哇 ... 核能技术大突破😯
版主: Softfist
#22 Re: 哇 ... 核能技术大突破😯
UncleTony 写了: 2024年 8月 6日 06:04 这是最近半年来关于中国这方面的报导
https://interestingengineering.com/ener ... olten-salt
https://www.chemistryworld.com/news/its ... 10.article
https://www.cnbc.com/amp/2023/08/30/how ... ch-up.html
基本稳了
时代一直在变,没有停过,也不会停!
#24 Re: 哇 ... 核能技术大突破😯
#25 Re: 哇 ... 核能技术大突破😯
共产党的核能技术已经全面领先了.
三代堆的国和一号
四代堆已经有两种堆型商用了. 其他国家为0
美国建成的三代堆没有中国多. 到2029年, 中国投运的核反应堆容量就比美国大了. 那时候全世界最大的核电厂前十里面基本是中国的厂一大半,
其他发电技术
火力发电, 中国领先. 水电中国领先, 光伏中国领先, 风电中国领先. 基本上中国已经是全面超越欧美.
二氧化碳超临界美国还只能搞10MW的, 中国50MW的已经跑了几年.
三代堆的国和一号
四代堆已经有两种堆型商用了. 其他国家为0
美国建成的三代堆没有中国多. 到2029年, 中国投运的核反应堆容量就比美国大了. 那时候全世界最大的核电厂前十里面基本是中国的厂一大半,
其他发电技术
火力发电, 中国领先. 水电中国领先, 光伏中国领先, 风电中国领先. 基本上中国已经是全面超越欧美.
二氧化碳超临界美国还只能搞10MW的, 中国50MW的已经跑了几年.
#26 Re: 哇 ... 核能技术大突破😯
根本不是材料过关了,而是胆子够大,敢忽悠而已。就像国产电动车一样,不就多烧死几个人嘛。
熔盐概念堆几十年前就做出来了,难点就是长期用问题很多。
你要是说能不能用,很多国家明天就可以拉出来用。
熔盐概念堆几十年前就做出来了,难点就是长期用问题很多。
你要是说能不能用,很多国家明天就可以拉出来用。
#29 Re: 哇 ... 核能技术大突破😯
最终还是服务于黑JB,白忙乎。
黑非洲众国家过去连车轮都没有,也没有两层楼。但现在遍地高楼大厦,人人手机,不仅是历史最强盛,而且无数个远远远远地超越过去,充分展现了非洲领导人们无比卓越的领袖才能!
#32 Re: 哇 ... 核能技术大突破😯
你们总是犯自恋狂的癔症。Fakestory 写了: 2024年 8月 6日 09:37 根本不是材料过关了,而是胆子够大,敢忽悠而已。就像国产电动车一样,不就多烧死几个人嘛。
熔盐概念堆几十年前就做出来了,难点就是长期用问题很多。
你要是说能不能用,很多国家明天就可以拉出来用。
说道严谨的科学态度,你不妨比较一下我土和你帝的航天工程。
你帝就他妈的是一帮草菅人命的自恋狂。
#33 Re: 哇 ... 核能技术大突破😯
简中啊?Pta 写了: 2024年 8月 6日 07:45 跟你说了,这就是傻逼台巴子骗你钱的视频。想了解原子能技术的发展,可以看《原子能科学技术》杂志。那个才是真正官方的技术报道。
网址:https://yznkxjs.xml-journal.net/
这个呢?
https://www.gen-4.org/gif/jcms/c_9260/public
by
https://www.iaea.org/
#36 Re: 哇 ... 核能技术大突破😯
who is leading the fourth generation nuclear reactors in the world
Copilot:
China is currently leading the development and deployment of fourth-generation nuclear reactors. The world’s first fourth-generation nuclear reactor, the Huaneng Shandong Shidao Bay Nuclear Power Plant, went into commercial operation on December 6, 202312. This plant features a High-Temperature Gas-Cooled Reactor-Pebble-bed Module (HTR-PM), which is designed to be inherently safe and efficient2.
Key features of this reactor include:
Helium Cooling: Unlike traditional reactors that use water, this reactor uses helium gas for cooling, which enhances safety.
Modular Design: The reactor is modular, allowing for easier construction and scalability.
Inherent Safety: The design ensures that the reactor core will not melt, even under extreme conditions.
China’s advancements in this area are setting a global example for the future of nuclear energy.
https://www.usnews.com/news/world/artic ... ar-reactor
https://www.world-energy.org/article/39508.html
https://technology.inquirer.net/130496/ ... ar-reactor
https://interestingengineering.com/ener ... perational
Copilot:
China is currently leading the development and deployment of fourth-generation nuclear reactors. The world’s first fourth-generation nuclear reactor, the Huaneng Shandong Shidao Bay Nuclear Power Plant, went into commercial operation on December 6, 202312. This plant features a High-Temperature Gas-Cooled Reactor-Pebble-bed Module (HTR-PM), which is designed to be inherently safe and efficient2.
Key features of this reactor include:
Helium Cooling: Unlike traditional reactors that use water, this reactor uses helium gas for cooling, which enhances safety.
Modular Design: The reactor is modular, allowing for easier construction and scalability.
Inherent Safety: The design ensures that the reactor core will not melt, even under extreme conditions.
China’s advancements in this area are setting a global example for the future of nuclear energy.
https://www.usnews.com/news/world/artic ... ar-reactor
https://www.world-energy.org/article/39508.html
https://technology.inquirer.net/130496/ ... ar-reactor
https://interestingengineering.com/ener ... perational
#37 Re: 哇 ... 核能技术大突破😯
what about the molten salt reactor (MSR)?
Copilot
Molten Salt Reactors (MSRs) are an advanced type of nuclear fission reactor that use molten salt mixtures as both the primary coolant and, in some designs, the fuel itself. Here are some key points about MSRs:
History and Development:
MSRs were initially developed in the 1950s and 1960s, with notable experiments like the Molten-Salt Reactor Experiment (MSRE) conducted at Oak Ridge National Laboratory.
Renewed interest in the 21st century has led to various countries, including China and the United States, investing in MSR technology.
Advantages:
Safety: MSRs operate at lower pressures compared to traditional reactors, reducing the risk of explosions. The molten salt can also act as a passive safety feature, solidifying and stopping the reaction in case of a leak1.
Efficiency: They can operate at higher temperatures (around 700°C or 1,292°F), which increases the efficiency of electricity generation.
Waste Reduction: MSRs produce less high-level radioactive waste and can potentially use existing nuclear waste as fuel2.
Fuel Flexibility: They can use a variety of fuel cycles, including thorium and uranium, which extends fuel resources2.
Challenges:
Corrosion: The high temperatures and chemical nature of molten salts can cause corrosion in reactor materials, which is a significant engineering challenge.
Regulatory and Economic: Developing and deploying MSRs requires overcoming regulatory hurdles and proving economic viability.
Current Projects:
China is leading in MSR development with projects like the TMSR-LF1 thorium unit.
Other countries, including the United States, are also actively researching and developing MSR technology.
MSRs represent a promising direction for the future of nuclear energy, offering enhanced safety, efficiency, and sustainability.
https://www.iaea.org/topics/molten-salt-reactors
Copilot
Molten Salt Reactors (MSRs) are an advanced type of nuclear fission reactor that use molten salt mixtures as both the primary coolant and, in some designs, the fuel itself. Here are some key points about MSRs:
History and Development:
MSRs were initially developed in the 1950s and 1960s, with notable experiments like the Molten-Salt Reactor Experiment (MSRE) conducted at Oak Ridge National Laboratory.
Renewed interest in the 21st century has led to various countries, including China and the United States, investing in MSR technology.
Advantages:
Safety: MSRs operate at lower pressures compared to traditional reactors, reducing the risk of explosions. The molten salt can also act as a passive safety feature, solidifying and stopping the reaction in case of a leak1.
Efficiency: They can operate at higher temperatures (around 700°C or 1,292°F), which increases the efficiency of electricity generation.
Waste Reduction: MSRs produce less high-level radioactive waste and can potentially use existing nuclear waste as fuel2.
Fuel Flexibility: They can use a variety of fuel cycles, including thorium and uranium, which extends fuel resources2.
Challenges:
Corrosion: The high temperatures and chemical nature of molten salts can cause corrosion in reactor materials, which is a significant engineering challenge.
Regulatory and Economic: Developing and deploying MSRs requires overcoming regulatory hurdles and proving economic viability.
Current Projects:
China is leading in MSR development with projects like the TMSR-LF1 thorium unit.
Other countries, including the United States, are also actively researching and developing MSR technology.
MSRs represent a promising direction for the future of nuclear energy, offering enhanced safety, efficiency, and sustainability.
https://www.iaea.org/topics/molten-salt-reactors
#38 Re: 哇 ... 核能技术大突破😯
楼主说的是钍堆,别整这些不相干的。redot 写了: 2024年 8月 6日 22:44 what about the molten salt reactor (MSR)?
Copilot
Molten Salt Reactors (MSRs) are an advanced type of nuclear fission reactor that use molten salt mixtures as both the primary coolant and, in some designs, the fuel itself. Here are some key points about MSRs:
History and Development:
MSRs were initially developed in the 1950s and 1960s, with notable experiments like the Molten-Salt Reactor Experiment (MSRE) conducted at Oak Ridge National Laboratory.
Renewed interest in the 21st century has led to various countries, including China and the United States, investing in MSR technology.
Advantages:
Safety: MSRs operate at lower pressures compared to traditional reactors, reducing the risk of explosions. The molten salt can also act as a passive safety feature, solidifying and stopping the reaction in case of a leak1.
Efficiency: They can operate at higher temperatures (around 700°C or 1,292°F), which increases the efficiency of electricity generation.
Waste Reduction: MSRs produce less high-level radioactive waste and can potentially use existing nuclear waste as fuel2.
Fuel Flexibility: They can use a variety of fuel cycles, including thorium and uranium, which extends fuel resources2.
Challenges:
Corrosion: The high temperatures and chemical nature of molten salts can cause corrosion in reactor materials, which is a significant engineering challenge.
Regulatory and Economic: Developing and deploying MSRs requires overcoming regulatory hurdles and proving economic viability.
Current Projects:
China is leading in MSR development with projects like the TMSR-LF1 thorium unit.
Other countries, including the United States, are also actively researching and developing MSR technology.
MSRs represent a promising direction for the future of nuclear energy, offering enhanced safety, efficiency, and sustainability.
https://www.iaea.org/topics/molten-salt-reactors
#39 Re: 哇 ... 核能技术大突破😯
Molten Salt Reactors (MSRs) 是什么堆啊?
看了你什么都不知道,就瞎咧咧啊 - 土基堆就是一种熔盐堆啊, 全称是钍基熔盐反应堆(Thorium Molten Salt Reactor 英文缩写是TMSR),记住了,下次别再闹笑话,被臭翻墙的笑
#40 Re: 哇 ... 核能技术大突破😯
嘿嘿... 他们一贯这样 - 为反对而反对!根本不在乎事情本身的真伪...redot 写了: 2024年 8月 7日 03:44 Molten Salt Reactors (MSRs) 是什么堆啊?
看了你什么都不知道,就瞎咧咧啊 - 土基堆就是一种熔盐堆啊, 全称是钍基熔盐反应堆(Thorium Molten Salt Reactor 英文缩写是TMSR),记住了,下次别再闹笑话,被臭翻墙的笑
钍基核反应堆是最具前途的 新一代核能...
兔子是多年来花了血本 研究的... 现在快到了使用化阶段了
这个链接连总觉得清清楚楚...
https://www.perplexity.ai/search/tu-ji- ... UFMceyfzyg