News on China's scientific and technological development.

sunnymaxi

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Sniffing a VR flower: China's scientists developed an olfactory interface for
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to enhance reality in the virtual world with 2 wearable devices — a skin-integrated one with 2 odor generators (OGs) and a mask of 3 × 3 OGs array — which can imitate real smells of flowers & foods..

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sunnymaxi

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First domestically manufactured 150 MW large-scale impulse water turbine runner rolled off the production line on Tuesday in Deyang, Sichuan. marking the localization of of key core technologies of China's high end, large capacity impact type hydropower unit. The 20-tonne runner, made with the help of 3D-printing technology, is expected to be operational in June. after years of research we finally broke the foreign monopoly and for efficiency we have used advance 3D printing technology. company said.

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Deleted member 24525

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First domestically manufactured 150 MW large-scale impulse water turbine runner rolled off the production line on Tuesday in Deyang, Sichuan. marking the localization of of key core technologies of China's high end, large capacity impact type hydropower unit. The 20-tonne runner, made with the help of 3D-printing technology, is expected to be operational in June. after years of research we finally broke the foreign monopoly and for efficiency we have used advance 3D printing technology. company said.

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If I'm not mistaken the 1GW units for the baihetan dam were developed domestically by dongfeng, so is it the type of turbine here that is uniquely difficult to build? Or do turbines get harder in the hundred megawatt range?
 

pipaster

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First domestically manufactured 150 MW large-scale impulse water turbine runner rolled off the production line on Tuesday in Deyang, Sichuan. marking the localization of of key core technologies of China's high end, large capacity impact type hydropower unit. The 20-tonne runner, made with the help of 3D-printing technology, is expected to be operational in June. after years of research we finally broke the foreign monopoly and for efficiency we have used advance 3D printing technology. company said.

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It is an impulse turbine versus a reaction turbine. I'm no expert, but I believe that they're are greater forces to manage in a impulse turbine. Most modern hydro power plants use a reaction type of turbine.
 

broadsword

Brigadier
If I'm not mistaken the 1GW units for the baihetan dam were developed domestically by dongfeng, so is it the type of turbine here that is uniquely difficult to build? Or do turbines get harder in the hundred megawatt range?

Beihaitan Hydropower Station type of turbine is the Francis turbine while the one here is the Pelton wheel design. The Francis turbine is the most efficient type of turbine and those used in the Beihaitan dam do not disappoint, converting 96.7% of the kinetic energy from water into electric energy. Locally made.
 

Strangelove

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China launches world's first trial commercial 5G inter-network roaming


China on Wednesday announced the launch of the world's first commercial 5G inter-network roaming service trial at the conference of World Telecommunication and Information Society Day (WTISD) 2023.

The WTISD is celebrated every year on May 17. The conference this year was held in Hefei, capital city of east China's Anhui Province, with the theme of "empowering the least developed countries through information and communication technologies."

The first commercial 5G inter-network roaming will be put into trial use in Xinjiang Uygur Autonomous Region, allowing users to access 5G services of other operators when outside the range of their operators' 5G network.

In areas where 5G roaming services are provided, users can use terminals that support 5G roaming without changing their SIM card or phone number, and directly use the 5G roaming service without paying additional fees.

Promotes large-scale 5G application, plans for 6G

In the future, China will promote the large-scale application of 5G and the industrial internet, and plan for future industries such as 6G, quantum information and brain-like intelligence, said Zhang Yunming, vice minister of industry and information technology during the conference.

The innovative application of 5G and the industrial internet has unique advantages in improving the efficiency of resource allocation and facilitating economic circulation at home and abroad, according to Zhang.

The next generation of information and communication technologies has become an important engine for the country's high-quality development, said Zhang.

"We will deepen the integration of 5G and the industrial internet to support the development of high-end, intelligent and green manufacturing industry," he added.
 

tacoburger

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Seawater extraction of uranium. Just a test platform for now. I hope that we eventually get figures as to how much uranium they can extract and the cost. If they don't have to be manned, there's no reason why you can't just have thousands of them dotting the coastline and have a crew come and harvest them once in a while. Or bundle them up with existing sea based infrastructure like oil rigs, offshore wind turbines, floating fish farms etc etc. Or extract from the concentrated brine that desalination produce before dumping it back onto the ocean. Or from coal ash that also contains trace amounts of uranium. It all depends on the cost of the "mats" that are used to absorb the uranium.
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The floating platform. It's small but most off the action should be in the "mats" floating under the water, which could be several dozen meters long.
 

sunnymaxi

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serious breakthrough.

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Chinese team achieves ‘milestone’ by controlling chemical reactions with lasers​

  • Scientists in northeastern China are the first to manipulate reactions at the atomic level
  • The research provides a starting point for more sophisticated experiments and could lead to more efficient production of chemicals


A Chinese team hit a “milestone” in chemistry research, becoming the first scientists to control
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, according to a leading journal.

The
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, whose findings were published in Science on January 12, said their method allowed them to manipulate hydrogen atom reactions with unprecedented precision, which could eventually lead to more efficient production of chemicals.

The research was led by Yang Xueming and Zhang Donghui of the Dalian Institute of Chemical Physics in the northeastern province of Liaoning. Both Yang and Zhang are members of the prestigious
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.

The team used a
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to control the orientation of hydrogen-deuterium (HD) molecules as they were pelted with hydrogen atoms, resulting in a higher yield of hydrogen molecules.


During
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, microscopic particles collide with each other and form new structures. The orientation of the colliding particles has a big effect on the chemical reaction’s outcome.

When a hydrogen atom collides with one of the ends of a dumbbell-shaped HD molecule, it yields three times the number of hydrogen molecules as when the atom hits the middle of the “dumbbell”.

For decades, chemical engineers regulated reactions by adding catalysts and changing the temperature or pressure of the reaction system to get the desired results and produce items ranging from medicine and cosmetics to tyres.

But as scientists looked to control reactions at the microscopic level, these traditional methods started to fail.

Scientists have spent many years trying to improve their understanding of chemical reactions at the atomic and molecular scale and coming up with new tools to control these reactions.

The Dalian team’s experiment, which uses the simplest molecules in nature, offers scientists a starting point to control more sophisticated and dynamic types of chemical reactions.

The reviewers from Science praised the team’s work as “a milestone in the field of reaction dynamics”.

“This work is a summary and further improvement of our work over the past 20 years,” said Xiao Chunlei, a co-author of the paper.

In 2006, the team started looking for a method to detect the results of experiments performed at the atomic scale. They eventually invented what they called the “Rydberg detection technique” for measuring the movement of atoms.

“That was the first stage of our research, in which our work seemed passive, as we could only observe but not control the state of reactants,” Xiao said.
In 2013, the team started to experiment with controlling the reaction process by using lasers to inject energy into molecules.
The team is now able to precisely control the orientation of reactant molecules by changing the direction of the laser’s electric field.

Zhang led the calculation team, which carried out
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on a computer. Their calculations closely matched the results of the experiment, providing further proof of the dynamic process.

“Previous chemical reaction research was like a ‘blind box’ – the result was predetermined by its original quantum properties, and scientists could not control it at will. It was like rolling the dice to get our desired results,” Zhang said in an interview on Wednesday.

“But now we can excite a specific molecule and control its orientation to directly get what we want.”

According to the team, the research proves the orientation of molecules and atoms has a substantial effect on fundamental chemical reactions, and will serve as an example for future experiments.

“This work provides a theoretical basis based on quantum mechanics. In the future, we might bring larger and heavier atoms such as fluorine or chlorine into our research,” Xiao said.
 

luminary

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For the first time, China overtakes United States on contribution to research in Nature Index​

Data on affiliations suggest that authors from China made the largest contribution to high-quality natural-science research in 2022.

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Data on author affiliations from the
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show that China had a Share of 19,373 from January to December 2022, compared with 17,610 for the United States

2022 data in the 2023 Nature Index annual tables suggest that China also overtook the United States in Earth and environmental sciences for the first time. This leaves only one natural-sciences category — life sciences — in which it is still trailing.

One of the Chinese government’s goals over the next decade might be to “deepen” the country’s research strengths across a wider set of institutions, scientists and fields, so that China can be more self-reliant.

The Nature Index data do show that China has still a way to go before it catches the United States on Count, a raw sum of all articles in the database that have at least one author from a particular country. In the same January to December 2022 window, the United States had a Count of almost 25,200 articles, compared with slightly more than 23,500 for China.

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