JPS59115949A - Refrigerant-adsorbent composition and absorption type refrigerator using said composition - Google Patents

Refrigerant-adsorbent composition and absorption type refrigerator using said composition

Info

Publication number
JPS59115949A
JPS59115949A JP22393582A JP22393582A JPS59115949A JP S59115949 A JPS59115949 A JP S59115949A JP 22393582 A JP22393582 A JP 22393582A JP 22393582 A JP22393582 A JP 22393582A JP S59115949 A JPS59115949 A JP S59115949A
Authority
JP
Japan
Prior art keywords
refrigerant
absorbent
composition
absorption type
present
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP22393582A
Other languages
Japanese (ja)
Inventor
庄司 三良
豊 伊藤
本間 吉治
文雄 中野
原田 日路史
信一 川村
多羅尾 良吉
末吉 興次
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
JNC Corp
Hitachi Ltd
Original Assignee
Hitachi Ltd
Chisso Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hitachi Ltd, Chisso Corp filed Critical Hitachi Ltd
Priority to JP22393582A priority Critical patent/JPS59115949A/en
Publication of JPS59115949A publication Critical patent/JPS59115949A/en
Pending legal-status Critical Current

Links

Abstract

(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

【発明の詳細な説明】 本発明は改善された効率を有するフロン吸収式冷凍(吸
に係り、詳しくはそれに使用さする冷媒と吸収剤からの
組成物に関する。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to fluorocarbon absorption refrigeration with improved efficiency, and more particularly to compositions of refrigerants and absorbents used therein.

フロン吸収式冷凍機は、一般に、冷媒と吸収剤とを内包
した閉鎖回路を有し、その回路にある蒸発器において液
状の冷好金気化させ、その際必要な潜熱を周囲から奪う
ことによって冷却を行なう。Freon absorption refrigerators generally have a closed circuit containing a refrigerant and an absorbent, and an evaporator in the circuit vaporizes liquid cold-loving gold, which cools the refrigerator by removing the necessary latent heat from the surroundings. Do the following.

冷媒は、気化後吸収器に導かれて、冷媒を低濃度に含む
吸収剤に接触し吸収剤に吸収され、発生器に運ばれてそ
こで外部熱源によって加熱されて吸収剤から蒸気として
放出され、次に凝縮器において凝縮液化し、’TJ’J
 HI3の蒸発器に至り気化するという行程を経ること
によって、回路内を循環する。After vaporization, the refrigerant is led to an absorber, contacts an absorbent containing a low concentration of refrigerant, is absorbed by the absorbent, is conveyed to a generator, where it is heated by an external heat source, and is released from the absorbent as a vapor, Next, it is condensed and liquefied in a condenser, 'TJ'J
It circulates within the circuit by going through the process of reaching the HI3 evaporator and being vaporized.

他方、吸収剤は、吸収器において冷媒を濃厚に吸収溶解
して発生器に運び、ここで冷媒の大部分を放出したのち
、再び吸収器に戻る。On the other hand, the absorbent absorbs and dissolves the refrigerant in a concentrated manner in the absorber, transports it to the generator, releases most of the refrigerant here, and then returns to the absorber again.

吸収剤のフロン吸収性能は、下記式で示される’141
4 m比Wによって表わされる。The fluorocarbon absorption performance of the absorbent is expressed by the following formula: '141
4 m ratio W.

\■=(1−ξb)/(ξ、−ξb) (式中、ξは吸収剤中の冷媒濃度(重量分率)を表わし
、a及びbはそれぞれ吸収器において冷媒吸収後および
発生器において冷媒放出醍を示す。) この循環比Wの値が小さいほど、その吸収剤はすぐれた
冷媒吸収性能をもっことを示す。\■ = (1-ξb) / (ξ, -ξb) (where ξ represents the refrigerant concentration (weight fraction) in the absorber, and a and b represent the refrigerant concentration (weight fraction) in the absorber and after refrigerant absorption in the generator, respectively. The smaller the value of this circulation ratio W, the more excellent the absorbent has excellent refrigerant absorption performance.

これまでに提案されている冷媒・吸収剤系、モノクロル
ジフルオルメタンとテトラエチレングリコールジメチル
エーテル(TEGDME)およびN。The refrigerant/absorbent systems proposed so far are monochlorodifluoromethane, tetraethylene glycol dimethyl ether (TEGDME) and N.

N−ジメチルホルムアミド(DMF)との組合せについ
て、ξ、、ξbを測り、循環比として次の値を得た。た
だし、周囲条件として吸収器40c、5 Kg/ cm
 2圧、発生器100 ’C−、13K9 / cnr
2圧、とした。Regarding the combination with N-dimethylformamide (DMF), ξ, ξb were measured and the following values were obtained as the circulation ratio. However, the ambient conditions are absorber 40c, 5 Kg/cm
2 pressure, generator 100'C-, 13K9/cnr
It was set to 2 pressures.

吸収剤    ξ、    ξb   イ跡社ヒWTE
GDME   O,420,337,4IBM F  
   O,600,484,3循環比の点では、N、N
−ジメチルホルムアミドがテトラエチレングリコールジ
メチルエーテルよりも勝っている。しかし、アミド4は
冷媒および鉄系金属との共存下では温度100C付近で
も、冷媒の分解と金属の腐食や固形物の析出を招来する
欠点を有する。Absorbent ξ, ξb Itoshahi WTE
GDME O,420,337,4IBM F
O,600,484,3 In terms of circulation ratio, N,N
- Dimethylformamide is superior to tetraethylene glycol dimethyl ether. However, amide 4 has the drawback that in coexistence with a refrigerant and iron-based metal, even at temperatures around 100 C, the refrigerant decomposes, metal corrodes, and solids precipitate.

本発明は、このような従来の吸収剤の性状を考慮し、安
定でしかも好ましい循環比を有する冷媒・吸収剤組成物
を提供すること、また、それによって改善された効率で
作動する吸収式冷凍機を提供することを目的としている
The present invention takes into account the properties of conventional absorbents and provides a refrigerant/absorbent composition that is stable and has a favorable circulation ratio, and thereby provides an absorption refrigeration system that operates with improved efficiency. The purpose is to provide an opportunity.

その要点は、モノクロルジフルオルメタン″またけジク
ロルトリフルオルエタンを冷媒として、一般式  CI
(3−C−R−QC)(a1 (式中、Rは直鎖または側鎖を有するアルキレン基もし
くはオキシアルキレン基であってその酸素原子は核剤の
領内にあってもよい味竜粕奇・−4−) で示されるケトンを吸収剤として冷媒・吸収剤組成物が
成ることであり、また、冷凍機がこのような冷媒・吸収
剤組成物を用いていることである。The key point is that when monochlorodifluoromethane and dichlorotrifluoroethane are used as a refrigerant, the general formula CI
(3-C-R-QC) (a1 (wherein, R is an alkylene group or an oxyalkylene group having a straight chain or a side chain, and the oxygen atom may be within the region of the nucleating agent)・-4-) A refrigerant/absorbent composition is made using the ketone represented by the following as an absorbent, and a refrigerator uses such a refrigerant/absorbent composition.

本発明で反相される一般式 %式% (式中のRは前記と同じ意味を示す) に該当する吸収剤としては、例えば3−メトキシ−2−
プロパツブ、4−(2−(2−メトキシン エトキシ)エトキシ〕−2−ブタノン、4−〔2−メト
キシエトキシ〕−2−ブタノン、′2−メトキシー2−
メチルー4−ペンタノン、アセチルアセトアルデヒドジ
メチルアセクールなどが挙げられる。As an absorbent corresponding to the general formula % formula % (R in the formula has the same meaning as above) that is reversed in the present invention, for example, 3-methoxy-2-
Propatub, 4-(2-(2-methoxyethoxy)ethoxy)-2-butanone, 4-[2-methoxyethoxy]-2-butanone, '2-methoxy2-
Examples include methyl-4-pentanone, acetylacetaldehyde dimethyl acecool, and the like.

これらの吸収剤は前記冷媒に対して侵れた吸収性能およ
び安定性を有する。These absorbents have superior absorption performance and stability towards the refrigerants.

本発明の冷媒・吸収剤組成物には、安定化剤として例え
ばトリフェニルホスファイト、トリス(アルキルフェニ
ル)ホスファイト、ジフェニルアルキルホスZアイト、
ジアルキルフェニルホスファイトなどの有機ホスファイ
ト類の少量が含有されることは好ましい。The refrigerant/absorbent composition of the present invention contains stabilizers such as triphenyl phosphite, tris(alkylphenyl) phosphite, diphenyl alkyl phosphite,
It is preferred that small amounts of organic phosphites such as dialkylphenyl phosphites are included.

次に、実施例によって本発明を説明する。Next, the present invention will be explained by examples.

実施例1 冷媒としてモノクロルジフルオルメタンおよびジクロル
トリフルオルエタンを、また吸収剤として3−メトキシ
−2−プロパノン、4−[2−(2−メトキシエトキシ
)エトキシ〕−2−ブタノン、2−メトキシ−2−メチ
ル−4−ペンタノン、およびアセチルアセトアルデヒド
ジメチルアセクールを用い、各吸収剤に対するそれぞれ
の冷、媒の溶解量を測った。その結果は第1表に示すと
おりである。Example 1 Monochlorodifluoromethane and dichlorotrifluoroethane were used as refrigerants, and 3-methoxy-2-propanone, 4-[2-(2-methoxyethoxy)ethoxy]-2-butanone, 2-methoxy as absorbents. -2-Methyl-4-pentanone and acetylacetaldehyde dimethyl acecool were used to measure the amount of each refrigerant dissolved in each absorbent. The results are shown in Table 1.

さらに、冷媒と吸収剤および鉄系金属5M−41とを共
存させて150Cに1000時間保持し、冷媒の分解率
および金属の腐食状況を観測した。Furthermore, the refrigerant, absorbent, and iron-based metal 5M-41 were kept together at 150 C for 1000 hours, and the decomposition rate of the refrigerant and the state of corrosion of the metal were observed.

その結果を第2着に記した。The results are listed in 2nd place.

実施例2 フロン吸収式冷凍機に本発明を適用した効果を明らかに
するため、冷媒をモノクロルジフルオルメタンとし、吸
収剤に3−メトキシ−2−プロパノンとテトラエチレン
グリコールジメチルエーテル(比較例)とを用いて比較
した。冷凍能力1冷凍トンとしたときの作動条件は第3
表に示すとおりである。ただし、本発明がこの条件によ
って限定されることはない。Example 2 In order to clarify the effect of applying the present invention to a fluorocarbon absorption refrigerator, monochlorodifluoromethane was used as the refrigerant, and 3-methoxy-2-propanone and tetraethylene glycol dimethyl ether (comparative example) were used as the absorbents. was used for comparison. The operating conditions when the refrigerating capacity is 1 ton of refrigeration are the 3rd
As shown in the table. However, the present invention is not limited by this condition.

臀 測定時の周囲条件 表から明らかなように、1冷凍トンの冷凍力を得るため
に必要な冷媒・吸収剤組成物の循環量は479’Kg/
 hであって、比較例のテトラエチレングリコールジメ
チルエーテルの621Kz/hに比し、その80%弱で
ある。このことは、本発明によって、発生器における加
熱量および冷媒・吸収剤組成物の循環用ポンプの容量全
低減でき、冷凍伏全体の効率を高められることを意味す
る。As is clear from the table of ambient conditions at the time of measurement, the amount of circulating refrigerant/absorbent composition necessary to obtain 1 ton of refrigeration power is 479'Kg/
h, which is slightly less than 80% of 621 Kz/h of tetraethylene glycol dimethyl ether in the comparative example. This means that, according to the present invention, the amount of heating in the generator and the capacity of the pump for circulating the refrigerant/absorbent composition can be completely reduced, and the efficiency of the entire freezing process can be increased.

代理人 弁理士 普橋明夫 第1頁の続き 0発 明 者 多羅尾良吉 東京都千代田区丸の内2丁目7 番3号チッソ株式会社内 ・72)発 明 者 末吉興次 四街道市鹿渡698番地の52 ?り出 願 人 チッソ株式会社 大阪市北区中之島3丁目6番32Agent Patent Attorney Akio Fuhashi Continuation of page 1 0 shots Akira Ryokichi Tarao 2-7 Marunouchi, Chiyoda-ku, Tokyo No. 3 Chisso Corporation ・72) Originator: Okiji Sueyoshi 52-698 Kawatari, Yotsukaido City ? Applicant: Chisso Corporation 3-6-32 Nakanoshima, Kita-ku, Osaka

Claims (1)

【特許請求の範囲】 1、 モノクロルジフルオルメタンまたはジクロルトリ
フルオルエタンを冷媒とし、一般式0式% (式中、Rは直鎖または側鎖を有するアルキレン基もし
くはオキシアルキレン基であってその酸素原子は核剤の
領内にあってもよい廿未丹怪÷4唱うH−5嘲4砦り餡
引j仁←1^)で示されるケトン化合物を吸収剤として
含有する冷媒・吸収剤組成物。 2、 さらに有機ホスファイト化合物を含む特許請求の
範囲第1現記載の冷媒・吸収剤組成物。 3、 モノクロルジフルオルメタンまたはジクロルトリ
フルオルエタンを冷媒とし、一般式0式% (式中、Rは直毎Jまた(は側鎖を有するアルキレン基
もしくはオキシアルキレン基であってその酸素原子は核
剤の領内にあってもよいし末端にあってカルボニル基に
粘合してもよい)で示されるケトン化合物を吸収剤とし
て使用した吸収式冷凍機。 4、 吸収剤が有機ホスファイト化合物ケ営む特許請求
の範囲第3項の冷凍機。[Claims] 1. Monochlorodifluoromethane or dichlorotrifluoroethane is used as a refrigerant, and R is an alkylene group or an oxyalkylene group having a straight chain or a side chain, and The oxygen atom may be within the territory of the nuclear agent Refrigerant/absorbent composition containing a ketone compound as an absorbent as shown in thing. 2. The refrigerant/absorbent composition according to claim 1, further comprising an organic phosphite compound. 3. Using monochlorodifluoromethane or dichlorotrifluoroethane as a refrigerant, the general formula 0% (wherein, R is an alkylene group or an oxyalkylene group having a side chain, and the oxygen atom is An absorption refrigerator using a ketone compound as an absorbent (which may be present within the region of the nucleating agent or may be present at the end and stick to the carbonyl group) as an absorbent.4. A refrigerator according to claim 3.
JP22393582A 1982-12-22 1982-12-22 Refrigerant-adsorbent composition and absorption type refrigerator using said composition Pending JPS59115949A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP22393582A JPS59115949A (en) 1982-12-22 1982-12-22 Refrigerant-adsorbent composition and absorption type refrigerator using said composition

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP22393582A JPS59115949A (en) 1982-12-22 1982-12-22 Refrigerant-adsorbent composition and absorption type refrigerator using said composition

Publications (1)

Publication Number Publication Date
JPS59115949A true JPS59115949A (en) 1984-07-04

Family

ID=16806007

Family Applications (1)

Application Number Title Priority Date Filing Date
JP22393582A Pending JPS59115949A (en) 1982-12-22 1982-12-22 Refrigerant-adsorbent composition and absorption type refrigerator using said composition

Country Status (1)

Country Link
JP (1) JPS59115949A (en)

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