CN1079107C - Mixed throttled refrigerant suitable for range of 70-120 K - Google Patents
Mixed throttled refrigerant suitable for range of 70-120 K Download PDFInfo
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- CN1079107C CN1079107C CN 97115295 CN97115295A CN1079107C CN 1079107 C CN1079107 C CN 1079107C CN 97115295 CN97115295 CN 97115295 CN 97115295 A CN97115295 A CN 97115295A CN 1079107 C CN1079107 C CN 1079107C
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Abstract
The present invention relates to a low-temperature mixed throttled refrigerant for the temperature range of 70 to 120 K. The present invention is composed of the mixture of six groups of substances or at least one substance in the six groups. The present invention has the proportion that the first group has the mixed concentration of 30 to 50%Mol; the second group has the mixed concentration of 10 to 20%Mol; the third group has the mixed concentration of 5 to 15%Mol and the fourth group as the rest; the fifth group has the mixed concentration of 10 to 20%Mol; the sixth group has the mixed concentration of 5 to 15%Mol. The refrigerant of which the ignitability is greatly reduced greatly increases the thermodynamic efficiency of a mixed throttled refrigerator.
Description
The present invention relates to cryogenic refrigeration and liquefaction technology, particularly relate to a kind of high-level efficiency multicomponent mixture work medium refrigeration agent of the 70K-120K of being suitable for warm area throttling refrigeration circulation usefulness.
Prior art such as United States Patent (USP): the refrigeration working medium described in 5,441, No. 658 files is by N
2, CH
4, C
2H
6And C
3H
8Form, its volumetric molar concentration proportioning is: N
2(30%), CH
4(15%), C
2H
6(25%), C
3H
8(30%).They are the throttling refrigeration round-robin mixture working mediums that are used to obtain liquid nitrogen temperature.
Throttling refrigeration round-robin principle is seen Fig. 1.It mainly is made up of compressor, water cooler, adverse current heat exchanger, throttle expansion valve and cryogenic vaporizer.The basic mechanism of refrigerating is the refrigeration effect that produces after the joule-Thomson throttling expansion of working medium.Therefore, throttling refrigeration round-robin efficient depends primarily on the refrigeration agent working medium that is adopted.Adopt simple nitrogen as the existing very long history of throttling refrigeration round-robin working medium, but because the restriction of simple nitrogen hot working fluid rerum natura, make the j-t refrigerator that adopts purity nitrogen to make working medium need operate in higher pressure (10.MPa-30.0MPa), the throttling refrigeration circulation of therefore adopting purity nitrogen to do working medium needs multistage high pressure compressor.Even adopted multistage high pressure compressor, it is also very low to adopt purity nitrogen to do the thermo-efficiency of j-t refrigerator of working medium.
Prior art 5,441 has adopted the mixture working medium refrigeration agent to be used for the throttling refrigeration circulation in No. 658 american documentation literatures, compare with the j-t refrigerator that adopts purity nitrogen to make working medium, and the thermo-efficiency of refrigerator has obtained bigger raising.Therefore, the mixture working medium of the thermo-efficiency of j-t refrigerator and employing has bigger relation.Through further investigation, we have found that the shortcoming of this refrigeration agent is: thermo-efficiency is still not high enough, and bigger combustibility is arranged.The not high reason of this class mixture thermo-efficiency is that the thermo-efficiency of its low-temperature zone (120K-200K) and high temperature section (290K-320K) is not high, thereby causes adopting such refrigeration agent to have lower thermodynamic(al) efficiency at last.Secondly, contain so property gas of larger proportion in this two classes mixture, therefore make that this two classes mixture working medium is flammable mixture refrigerant.Further discover,, can make the throttling refrigeration circulation of adopting new mixture working medium have higher thermodynamic(al) efficiency, and reduce the combustibility of refrigeration agent by in prior art [1], introducing new refrigeration agent constituent element and rational proportion more.
The objective of the invention is to further improve the thermo-efficiency of mixture working medium throttling refrigerant, reduce the combustibility of refrigeration agent, perhaps make refrigeration agent become efficient and non-flammable refrigeration agent working medium by suitable proportioning.Make and adopt long-term, reliable, the also operation expeditiously safely of mixture j-t refrigerator of the present invention.Thereby provide a kind of mixture working medium throttling refrigerant of the 70K-120K of being applicable to warm area.
The object of the present invention is achieved like this:
The low-temperature mixed throttling refrigeration agent that the 70K-120K of being suitable for warm area of the present invention is used is mixed and made into by seven groups of materials, and seven groups of materials comprise:
Each constituent element comprises as follows:
The 7th group: helium (He), neon (Ne), hydrogen (H
2); Add the 7th group of material and can reduce the pressure component of high boiling point working medium such as nitrogen, vaporization temperature is reached below the 80K.
First group: nitrogen (N
2), argon gas (Ar); It is the groundwork material.
Second group: methane (CH
4);
The 3rd group: tetrafluoromethane CF
4(R14);
The 4th group: ethane (C
2H
6), ethene (C
2H
4), Freon 13 (R13),
Trifluoromethane (R23), hexafluoroethane (R116); Play the effect of balanced system refrigerant mixture component.
The 5th group: propane (C
3H
8), propylene (C
3H
6), Trimethylmethane (iC
4H
10),
1-butylene (iC
4H
8), methyl chlorofluoride (R12), difluorochloromethane (R22),
Octafluoropropane (R218);
The 6th group: iso-pentane (iC
5H
12), 1-amylene (il-C
5H
10),
3-methyl-1-butene (i2-C
5H
10),
2,3-dimethyl-1-butylene (C
6H
12),
2-methylpentane (C
6H
14)
The second-six group of material all is the heat exchange effect that improves differing temps in refrigeration agent, and increases the isothermal throttling effect.And adding freonll-11 makes refrigeration agent have low combustible or make refrigeration agent reach not flammable when appropriate proportioning.
Usually preparation refrigeration agent of the present invention can form from first group to the 6th group all substances mixed preparing.Wherein, each material melting concn is arbitrarily in each group, as long as this group total concn is: the volumetric molar concentration of first group constituent element is between 30%-50%, constituent element concentration in second group is between 10%-20%, the 3rd group constituent element concentration is between 5%-15%, and the 6th group constituent element concentration is between 5%-15%, and the concentration of the 5th group constituent element is between 10%-20%, surplus is the 4th group a concentration, is mixed and made into by seven groups of materials.For example, first group comprises nitrogen, argon gas, and accounting for total amount concentration during mixing is 30%-50%mol, and it is arbitrarily that nitrogen, argon gas account for first group of concentration when mixing separately, as when selecting first group of total amount to be 30%mol, can account for 10%mol by nitrogen, and argon gas accounts for 20%mol.
Preferably, choose a kind of material respectively can be from first group to the 6th group and mix, as: N
2, CH
4, R14, C
2H
6, C
3H
8, iC
5H
12Six kinds of constituent elements constitute new mixture working medium throttling refrigerant according to the above ratio.Perhaps from first group to the 6th group constituent element, choose N respectively
2, CH
4, R14, R13, R22, iC
5H
10These 6 kinds of constituent elements constitute.Or the like, can select to constitute numerous kinds of high-level efficiency multicomponent mixture throttling refrigerants.
Also can should in the above-mentioned multicomponent mixture working medium that constitutes by 6 kinds of constituent elements, add the arbitrary constituent element in the 7th group more usually in order to obtain to be adapted to be lower than the refrigeration agent of the temperature of 80K.For example, can choose He, N respectively from first group to the 7th group
2, CH
4, R14, C
2H
6, C
3H
8, iC
5H
1These 7 kinds of constituent elements constitute can obtain the following high-level efficiency multicomponent mixture working medium throttling refrigerant of 80K.The volumetric molar concentration of first group of constituent element is controlled at 3%-15%.
Refrigeration agent thermodynamic cycle performance specification of the present invention is as follows:
Mixed work medium for throttling refrigeration agent of the present invention enters into compressor from state (6), and according to Fig. 2 throttling refrigerant thermodynamic cycle view, refrigeration agent is compressed to state (7); Then, enter into water cooler and be cooled to state (8); The counterflow heat exchanger that enters into throttling refrigerator then is pre-chilled to state (9); Pass through throttling valve then, be throttled to state (10); Enter the heat absorption of cold head vaporizer then, become state (11); Get back to state (12) through counterflow heat exchanger then.State (12) is to the backheat loss that between the state (6) is counterflow heat exchanger.
Specific refrigerating effect=q
c=h
6-h
5
Power consumption=the W of unit
m=(h
2-h
1)-T
0(S
2-S
1)
Effect of the present invention: 1. the low-temperature mixed throttling refrigeration agent that the 70K-120K of being suitable for warm area of the present invention is used is used under the present hardware device condition, can improve the thermodynamic efficiency of mixture working medium j-t refrigerator significantly.2. reduce the concentration of flammable constituent element in the original mixture refrigeration agent, thereby made the combustibility of the mixture working medium throttling refrigerant among the present invention descend.By the rational Match of constituent element, not only keep high thermodynamic(al) efficiency, and can eliminate its combustibility.3. have higher thermodynamic(al) efficiency owing to mixture throttling refrigerant of the present invention, therefore can further reduce the operating pressure of j-t refrigerator, thereby will make long-term, the operation reliably, safely and efficiently of the j-t refrigerator that adopts this refrigeration agent.
Below in conjunction with embodiment the present invention is described in further detail:
Fig. 1 is a throttling refrigeration round-robin schema; Drawing is described as follows:
Fig. 2 is to use refrigeration agent thermodynamic cycle figure of the present invention.
1. compressor; 2. water cooler; 3. counterflow heat exchanger;
4. throttling valve; 5. vaporizer 6.7.8.9.10.11.12 state;
Embodiment 1: it is respectively by the volumetric molar concentration per-cent of first group to the 7th group whole constituent elements in mixture refrigerant: 3%~15%; 30%~50%; 10%~20%; 5%~15%; 10%~20%; 10%~25%; 5%~15%;
Its preferred preferred embodiment is as follows:
Embodiment 2:
Prepare a kind of low-temperature mixed throttling refrigeration agent of using at the 80K-120K warm area, it is to be mixed by a material in the 1-6 constituent element.It consists of:
Nitrogen (N
2) 40% volumetric molar concentration; Methane (CH
4); 1.5%mol;
Freon 13 (R13) 10%mol;
Freon 22 (R22) 10%mol;
Iso-pentane (iC
5H
12) 10%mol;
Tetrafluoromethane CF
4(R14) 15%mol;
Its working conditions: high pressure P
H=2.5MPa, low pressure P
H=0.1MPa.
Envrionment temperature To=300K, thermo-efficiency η reaches 48.7%; And inflammable gas content reduces by 55%.
Embodiment 3:
Prepare a kind of low-temperature mixed throttling refrigeration agent of using at the 70K-80K warm area, it is to be mixed by a kind of material from the 1-7 constituent element.It consists of:
A. helium (He) 5%mol; B. methane (CH
4) 15%mol;
C. tetrafluoromethane CF
4(R14) 15%mol; D. nitrogen (N
2) 40%mol;
E. iso-pentane (iC
5H
12) 10%mol; F. Freon 13 (R13) 10%mol;
Surplus is ethane (C
2H
5).
Its working conditions: high pressure P
H=2.5MPa, low pressure P
H=0.1MPa.
Envrionment temperature To=300K, thermo-efficiency η reaches 50.2%; And inflammable gas content reduces by 55%.
Embodiment 4:
Prepare a kind of mixture working medium throttling refrigerant that is applicable to the 100K-120K warm area, it is to be made by following mixed by a kind of material from the 1-6 constituent element, and it consists of:
Argon gas (Ar) 40%mol; Methane (CH
4) 15%mol; Freon 14 (R14) 10%mol; Ethane (C
2H
6) surplus; Propane (C
3H
8) 10%mol; Iso-pentane (iC
5H
12) 10%mol;
Its working conditions: high pressure P
H=2.5MPa, low pressure P
H=0.1MPa.
Envrionment temperature To=300K, thermo-efficiency η reaches 68.9%; And inflammable gas content reduces by 55%.Embodiment 5:
Prepare the mixture working medium throttling refrigerant that a kind of 75K of being applicable to warm area is used, made by following mixed by a kind of material from the 1-7 constituent element, it consists of:
Neon (Ne) 15%mol; Nitrogen (N
2); Methane (CH
4); Freonll-11 4 (R14); Ethene (C
2H
4); Propylene (C
3H
6); 1-amylene (i1-C
5H
10);
Its working conditions: high pressure P
H=2.5MPa, low pressure P
H=0.1MPa.
Envrionment temperature To=300K, thermo-efficiency η reaches 45%; And inflammable gas content reduces by 55%.
Embodiment 6:
Prepare the low-temperature mixed throttling refrigeration agent that a kind of 80K-120K warm area is used, made by following mixed by a kind of material from the 1-7 constituent element, it consists of:
Argon gas (Ar) 3%; Nitrogen (N
2) 50%; Methane (CH
4); Tetrafluoromethane CF
4(R14);
Freon 116 (R116); Trimethylmethane (iC
4H
10); 3-dimethyl-1-butylene (C
6H
12).
Its working conditions: high pressure P
H=2.5MPa, low pressure P
H=0.1MPa.
Envrionment temperature To=300K, thermo-efficiency η reaches 51%; And inflammable gas content reduces by 55%.
Embodiment 7:
Prepare the low-temperature mixed throttling refrigeration agent that a kind of 80K-120K warm area is used, by from the 1-7 constituent element, selecting a kind of the 7th group: He concentration 5%mol; First group: N
2Concentration 35%mol; Second group: CH
4Concentration 15%mol; The 3rd group: R14 concentration 15%mol; The 4th group: C
2H
6Concentration 10%mol; The 5th group: C
3H
8Concentration 10%mol; The 6th group: iC
5H
12Concentration 10%mol; (efficient 52%)
Embodiment 8:
Prepare the low-temperature mixed throttling refrigeration agent that a kind of 80K-120K warm area is used, by from the 1st class constituent element to the 7 class constituent elements, selecting
The 7th group: He, N
2, Ne concentration is (3%-3%-4%);
First group: N
2, Ar concentration is (25%-15%);
Second group: CH
4Concentration is (15%);
The 3rd group: R14 concentration is (10%);
The 4th group: whole 5 kinds of materials, every kind accounts for concentration and is (3%-3%-3%3%-3%);
The 5th group: whole 7 kinds of materials, every kind accounts for concentration and is (3%-3%-3%3%-3%3%-3%);
The 6th group: whole 4 kinds of materials, every kind accounts for concentration and is (3%-3%-3%);
(efficient 55%)
Claims (2)
1. one kind is suitable for the low-temperature mixed throttling refrigeration agent that cold zone is used, and contains:
(1) group material: nitrogen, argon gas, its melting concn are 30-50%mol;
(2) group material: methane, its concentration are 10-20%mol;
(3) group material: tetrafluoromethane, its concentration are 5-15%mol;
(4) group material: ethane, ethene, Freon 13, trifluoromethane, hexafluoroethane; Surplus;
(5) group material: propane, propylene, Trimethylmethane, 1-butylene, methyl chlorofluoride, difluorochloromethane, octafluoropropane; Its concentration is 10-20%mol;
(6) group: iso-pentane, 1-amylene, 3-methyl-1-butene, 2,3-dimethyl-1-butylene, 2-methylpentane; Its concentration is 5-15%mol;
Form by every group of total concn mixed that adds from (1)-(6) group material.
2. by the described a kind of low-temperature mixed throttling refrigeration agent that cold zone is used that is suitable for of claim 1, it is characterized in that: also comprise (7) group material: helium, neon, hydrogen, its melting concn are 3-15%mol.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 97115295 CN1079107C (en) | 1997-09-01 | 1997-09-01 | Mixed throttled refrigerant suitable for range of 70-120 K |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 97115295 CN1079107C (en) | 1997-09-01 | 1997-09-01 | Mixed throttled refrigerant suitable for range of 70-120 K |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1210130A CN1210130A (en) | 1999-03-10 |
| CN1079107C true CN1079107C (en) | 2002-02-13 |
Family
ID=5173276
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 97115295 Expired - Fee Related CN1079107C (en) | 1997-09-01 | 1997-09-01 | Mixed throttled refrigerant suitable for range of 70-120 K |
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| Country | Link |
|---|---|
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Cited By (1)
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| CN110645743A (en) * | 2019-09-12 | 2020-01-03 | 珠海格力电器股份有限公司 | Centrifugal water chilling unit adopting environment-friendly refrigerant |
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| CN101608860B (en) * | 2008-06-17 | 2011-08-17 | 北京安瑞科新能能源科技有限公司 | Gas liquefying process for mixed refrigerant and mixed refrigerant |
| CN101929788B (en) * | 2010-09-15 | 2012-01-04 | 中国科学院理化技术研究所 | Device for preparing liquefied natural gas from oxygen-containing coal bed gas |
| CN101922850B (en) * | 2010-09-15 | 2012-01-04 | 煤炭科学研究总院重庆研究院 | Method for preparing liquefied natural gas by using oxygen-containing coal bed gas |
| CN102618220B (en) * | 2011-01-26 | 2016-06-15 | 龙志刚 | A kind of mix refrigerant being applicable to 120K~150K Shen Lengwen district |
| CN105885798A (en) * | 2014-12-23 | 2016-08-24 | 张永康 | Non-combustible mixed refrigerant suitable for refrigeration temperature region at temperature of -135 DEG C to -105 DEG C |
| US10005939B2 (en) * | 2015-05-18 | 2018-06-26 | Nihon Freezer Co., Ltd. | Non-azeotropic refrigerant for extremely low temperature |
| CN105018037A (en) * | 2015-07-07 | 2015-11-04 | 黑龙江盛大科技有限公司 | Refrigerant synthesizing preparation for heat-exchange cycle system |
| CN107365568A (en) * | 2017-07-04 | 2017-11-21 | 中国科学院理化技术研究所 | Incombustible mixed refrigerant suitable for-60 to-100 ℃ temperature zone |
| CN108531135B (en) | 2018-04-10 | 2021-05-07 | 龙志刚 | Mixed refrigerant suitable for cryogenic temperature zone and preparation method and application method thereof |
-
1997
- 1997-09-01 CN CN 97115295 patent/CN1079107C/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110645743A (en) * | 2019-09-12 | 2020-01-03 | 珠海格力电器股份有限公司 | Centrifugal water chilling unit adopting environment-friendly refrigerant |
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| Publication number | Publication date |
|---|---|
| CN1210130A (en) | 1999-03-10 |
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