Mae hwn yn beth anamlwg iawn yr olwg. Nid yw ond maint palmwydd, ac mae ychydig yn drwm ar y llaw. Mae ei siâp yn eithaf arbennig. Mae tiwb metel tenau fel polyn, yn cario dwy silindr metel trwchus, ac mae un o'r silindrau metel yn cael ei ddilyn gan hanner tiwb ychydig yn deneuach na'r bys bach.
Un o'r oergelloedd tiwb pwls gradd awyrofod
Dywedodd Zhao Miguang, ymchwilydd yn Sefydliad Ffiseg a Chemeg yr Academi Gwyddorau Tsieineaidd (y cyfeirir ati yma wedi hyn fel Sefydliad Ffiseg a Chemeg Academi Gwyddorau Tsieineaidd), y byddai'n costio tua miliwn yuan i wneud y peth hwn. yn awr. Fodd bynnag, cyn 2000, ni fyddai gwledydd tramor yn ei werthu i Tsieina, ni waeth faint y mae'n ei gostio.
It is the "cooling artifact" that has plagued China's optical remote sensing satellites for decades - the aerospace-grade pulse tube refrigerator, a high-tech product that can quickly reduce the local temperature to minus 200 degrees Celsius and will not be damaged for many years.
Its birth and development in China benefited from a "long run" by researchers from the Chinese Academy of Sciences.
Oerwch i minws 200 gradd Celsius mewn ychydig funudau
Ar Ionawr 25, llwyddodd lloeren ZY-1 021 02E, sydd â thair oergell tiwb pwls a wnaed yn ddomestig, i gaffael delweddau o ansawdd uchel. Y tair oergell tiwb pwls hyn yw'r oergelloedd tiwb pwls gradd awyrofod 26, 27 a 28 a ddatblygwyd gan Sefydliad Ffiseg a Chemeg Academi Gwyddorau Tsieineaidd ac a ddefnyddir yn llwyddiannus mewn prosiectau gofod.
The new crown epidemic has made many people aware of "infrared temperature measurement" technology. When the human body passes through the thermal imaging camera, the hot spots on the body will appear red. In order to measure the temperature of the earth and the atmosphere, many meteorological satellites are also equipped with infrared detectors. However, due to the distance from the target detection object, the infrared detector on the satellite needs to maintain a low temperature or even an extremely low temperature level in order to detect the slightest heat change on the distant target.
Felly, sut i gadw'r synhwyrydd isgoch ar y lloeren mewn cyflwr tymheredd isel? Mae gwyddonwyr wedi dyfeisio dau fath o dechnolegau rheweiddio, un yw rheweiddiad ymbelydredd goddefol, sy'n seiliedig ar yr egwyddor y gall gwrthrychau tymheredd uchel belydru egni i wrthrychau tymheredd isel; y llall yw rheweiddio mecanyddol gweithredol, yr egwyddor yw gwneud nwy trwy symudiad mecanyddol. ehangu, ac mae'r ffenomen oeri yn digwydd pan fydd y nwy yn ehangu.
"The cooling temperature of radiation cooling is high and the cooling capacity is small. Although it can be used to cool small detectors, it cannot meet the higher requirements for low temperature of aerospace devices. In contrast, mechanical cooling technology is more feasible." Chinese Academy of Sciences Physics and Chemistry Chen Houlei, a researcher at the institute, told the China Science Journal.
Mae technoleg rheweiddio tiwb pwls yn fath o dechnoleg rheweiddio mecanyddol. Ym 1963, darganfu gwyddonwyr Americanaidd yn ddamweiniol, pan fydd ton pwysau eiledol mewn tiwb gwag, y bydd ei ben caeedig yn cynhesu, a gellir ffurfio graddiant tymheredd mawr ar hyd cyfeiriad echelinol y tiwb. Yn seiliedig ar hyn, maent wedi datblygu rheweiddio tiwb pwls. peiriant. Ym 1984, trawsnewidiodd gwyddonwyr Sofietaidd yr oergell tiwb pwls, a oedd yn gwella ei effeithlonrwydd oeri yn fawr, a chynyddodd y gwres ymchwil cysylltiedig hefyd.
Pointing to the pulse tube refrigerator in his hand, Chen Houlei introduced: "This part similar to the little finger is called the 'cold finger'. This small refrigerator can reduce the fingertip to minus 200 in a few minutes. Celsius. We put the probe on the fingertip, and when the temperature of the probe cools down, we can see the earth clearly."
O theori i beirianneg
In the 1980s, the Cryogenic Technology Experiment Center of the Chinese Academy of Sciences (one of the units of the Institute of Physics and Chemistry of the Chinese Academy of Sciences) took the lead in starting the basic research on pulse tube refrigeration technology in China. By the 1990s, they had set the record for the lowest refrigeration temperature several times, achieved a series of original achievements, and won the "Kapicha Award" and "Linde Award" of the International Society of Refrigeration.
In 1998, the United States was the first to engineer pulse-tube refrigerators for use in space programs. Although my country has achieved world-leading results in the basic research of pulse tube refrigeration, optical remote sensing satellites have been suffering from lack of their own space refrigerators. "At that time, the research and development unit could only import from abroad, and the aerospace-grade refrigerator was embargoed to our country. The research and development unit could only try every way to buy the ground-level refrigerator." Zhao Miguang said.
The reason for saying "bitter" is that the lifespan of imported ground-level refrigerators is less than 1/10 of that of aerospace-grade refrigerators, and problems often occur, and after satellites are launched, they cannot be repaired at any time like they are on the ground. Once on-orbit failure, the country may pay a huge price.
Ar ddiwedd y 1990au, gyda chefnogaeth y Gronfa Wyddoniaeth Genedlaethol ar gyfer Ysgolheigion Ifanc Nodedig, yr Academi Gwyddorau Tsieineaidd ac adrannau perthnasol eraill, dechreuodd tîm ymchwil Sefydliad Ffiseg a Chemeg yr Academi Gwyddorau Tsieineaidd drawsnewid yn ymchwil gymhwysol. yn ei gyfanrwydd. Gan wynebu'r anghenion mawr ym maes synhwyro o bell gofod cenedlaethol a chanfod isgoch, fe wnaethant gamu allan o'r pentwr o hen bapurau a chynnal ymchwil ar beirianneg oergelloedd tiwb pwls a chymwysiadau gofod. Gan ddechrau yn 2000, derbyniodd y tîm gefnogaeth systematig gan yr Asiantaeth Ofod Genedlaethol.
The road from theory to engineering is full of challenges. "What we want to do is aerospace-grade products. If the refrigerator will work in the sky in the future, it must be guaranteed that it will not break for 8 years, 10 years or even longer." Chen Houlei said.
Mae'r oergelloedd wedi'u llenwi â nwy heliwm, a rhaid iddynt sicrhau cyfradd gollwng isel iawn o foleciwlau heliwm trwy dechnoleg weldio a selio ddibynadwy. Mae cywasgu ac ehangu'r nwy yn dibynnu ar y piston. Rhaid iddynt wneud y piston a'r wal silindr yn agos a heb gysylltiad, er mwyn sicrhau nad yw'r piston yn gwisgo pan na ellir defnyddio olew. Cefnogir symudiad y piston gan wanwyn gwastad, a rhaid iddynt ddod o hyd i ffyrdd o sicrhau nad yw'r gwanwyn yn gam, heb sôn am dorri.
Every "must" means a pressure. "At that time, we encountered some problems, and we couldn't move forward for a long time, and everyone's morale was very low." Zhao Miguang said.
Summarize the progress at 8:00 in the morning, and leave work at 12:00 in the evening. In this way, 8 years have passed. In the past 8 years, Riyuexingchen has witnessed their road to tackling key problems: the pulse tube refrigerator they developed achieved full welding of titanium alloys; the distance between the piston and the cylinder reached the micron level; the leaf spring can move 100 in the anti-fatigue test. More than 100 million times, there is even a spring's anti-fatigue test "running" for more than 10 years, and there is no problem so far.
Mae 28 o oergelloedd tiwb pwls wedi'u rhoi ar waith
In 2008, under the leadership of researcher Liang Jingtao, the current director of the Key Laboratory of Space Work-Heat Conversion Technology, Institute of Physics and Chemistry, Chinese Academy of Sciences, the scientific research team developed my country's first long-life pulse tube refrigerator in space, and successfully carried out on-orbit verification. The refrigerator has achieved a historic leap from scratch, from tracking to entering the latest international development stage, and my country has thus become the second country after the United States to master the space pulse tube refrigeration technology.
Since then, the "stumbling block" in the development of optical satellites in the infrared spectrum has been kicked away, and the planning and demonstration of a series of satellite models in the country has been in full swing.
Technological innovation creates demand, which in turn drives technological development. In the following ten years, the development of my country's spaceborne infrared detectors has continuously put forward higher requirements for spaceborne pulse tube refrigerators.
Ar Fai 9, 2018, lansiwyd lloeren Gaofen-5 yn llwyddiannus. Roedd ganddo oergell tiwb pwls gyda chynhwysedd oeri mawr a bywyd hir a ddatblygwyd gan Sefydliad Ffiseg a Chemeg yr Academi Gwyddorau Tsieineaidd.
This satellite carries my country's first full-spectrum spectral imager covering the visible, near-infrared, short-wave, medium-wave, and long-wave infrared spectrum bands. Compared with previous optical detectors, it is larger and heavier. In order to adapt to the demand, the chiller project team boldly adopted a new solution. The chiller could only carry the cold finger of the cold platform with a size of more than ten millimeters and a weight of a few grams, and designed it into a detector assembly with a size of one hundred millimeters and a weight of one kilogram. .
Yn ystod yr ychydig flynyddoedd cyntaf, roedd y ffordd i droi'r dyluniad yn realiti yn anwastad. Fodd bynnag, po fwyaf o fethiannau y byddwch chi'n eu profi, y mwyaf bythgofiadwy y daw llawenydd llwyddiant.
"This is a new international initiative!" Chen Houlei's eyes lit up when he said this.
At 11:11 on December 26, 2021, the "Ziyuan No. 1 02E" satellite was successfully launched at the Taiyuan Satellite Launch Center. The long-wave infrared detector carried on it must work in a low temperature environment of minus 193 degrees Celsius. The spectral imager on Gaofen-5 is larger and requires twice the cooling area of the pulse-tube refrigerator.
During the development process, researchers encountered unprecedented difficulties. "The design life of the 'Zuanyu No. 1 02E' satellite is 10 years, which is higher than the previous 8-year life requirement. In order to meet the project requirements, we proposed a plan to use the switching device to backup the compressor. In the case of increasing the limited weight, the large It greatly improves the life of the refrigerator." Liu Yanjie, the chief designer of this pulse tube refrigerator and an associate researcher at the Institute of Physics and Chemistry of the Chinese Academy of Sciences, told the China Science Journal.
"During the design of the cold finger, the large-area cold plate we used had a deformation problem due to thermal expansion and contraction, and the detector on it was easily broken." The cold finger designer of this pulse tube refrigerator, Quan Jia, an associate researcher at the Institute of Physics and Chemistry of the Chinese Academy of Sciences, recalled that after countless discussions and debugging, they made a new material match for the cold plate and finally solved the problem.
Heddiw, maent wedi datblygu oergelloedd tiwb pwls gradd awyrofod o wahanol siapiau a pherfformiadau, ac mae 28 ohonynt wedi'u lansio i orbit.
Mae pob prosiect yn llawn heriau, a'r heriau hyn yw'r grym y tu ôl i dîm datblygu oergelloedd tiwb pwls.
"We are developing more advanced space low-temperature refrigeration technology with a cooling capacity of more than 100 watts, a temperature close to absolute zero, and a weight as low as a few hundred grams." Liang Jingtao said that the team will build on the successful development of the space pulse tube refrigerator. Continue to carry forward the spirit of "daring to challenge and fight hard", bravely assume "national responsibility", and forge ahead to meet the needs of low-temperature refrigeration in future spaces.
On the development road of aerospace-grade cryogenic refrigerator technology, this "long run" continues.