JP5083188B2 - Method for supplying hydrate slurry-forming drug - Google Patents

Method for supplying hydrate slurry-forming drug Download PDF

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JP5083188B2
JP5083188B2 JP2008312321A JP2008312321A JP5083188B2 JP 5083188 B2 JP5083188 B2 JP 5083188B2 JP 2008312321 A JP2008312321 A JP 2008312321A JP 2008312321 A JP2008312321 A JP 2008312321A JP 5083188 B2 JP5083188 B2 JP 5083188B2
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aqueous solution
hydrate slurry
hydrate
agent
concentration
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JP2009106937A (en
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信吾 高雄
繁則 松本
英雅 生越
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JFE Engineering Corp
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Description

本発明は、利用サイトへ水和物(クラスレート化合物)のスラリを生成する薬剤を供給する方法に関する。   The present invention relates to a method of supplying a drug that generates a slurry of hydrate (clathrate compound) to a use site.

テトラn−ブチルアンモニウム塩、テトラiso−アミルアンモニウム塩、テトラiso−ブチルホスホニウム塩、トリiso−アミルスルホニウム塩のようなゲスト化合物(水和物スラリ生成薬剤)を含んだ水溶液を冷却すると水和物が生成し、この水和物は微細な粒子となって水溶液中に浮遊して流動性の高い水和物スラリとなることが知られている。このような水和物および水和物スラリは、空調設備などの蓄冷材または冷熱の搬送媒体として好ましい特性を有しており、その利用技術の開発に対するニーズが高まっている。   When an aqueous solution containing a guest compound (hydrate slurry-forming agent) such as tetra-n-butylammonium salt, tetraiso-amylammonium salt, tetraiso-butylphosphonium salt, triiso-amylsulfonium salt is cooled, the hydrate It is known that this hydrate becomes fine particles and floats in an aqueous solution to form a highly fluid hydrate slurry. Such hydrates and hydrate slurries have favorable characteristics as cold storage materials such as air-conditioning equipment or cold transport media, and there is an increasing need for the development of utilization techniques.

しかし、水和物スラリを生成する水溶液を使用した空調設備などは未だ普及していないため、水和物スラリ生成薬剤の供給者からユーザーである水和物スラリの利用サイトへどのような状態で水和物スラリ生成薬剤を輸送し、利用サイトにおいてどのような調整を行うのかについて定まった方法が確立していない。このため、設備設計者の設計に応じた特性を有する水和物スラリ生成薬剤の水溶液を得ることが困難であった。この点に関連して、従来例えば蓄熱剤の分野において、蓄熱剤の供給者が蓄熱剤を封入したカプセルを製造してユーザーの利用サイトまで運搬し、ユーザーの蓄熱槽に充填するという販売形態が確立されているのとは異なる。   However, since air conditioning equipment using an aqueous solution that generates hydrate slurry has not yet become widespread, the state of hydrate slurry generation drug suppliers to users' hydrate slurry usage sites There is no established method for transporting hydrate slurry-generating drugs and making adjustments at the site of use. For this reason, it has been difficult to obtain an aqueous solution of a hydrate slurry-forming drug having characteristics according to the design of the equipment designer. In connection with this point, for example, in the field of heat storage agents, there is a sales form in which a heat storage agent supplier manufactures a capsule containing the heat storage agent, transports it to a user's site, and fills the user's heat storage tank. It is different from being established.

また、上記のような水和物スラリ生成薬剤の水和物には、水和数が小さく生成温度の低い第一水和物と、水和数が大きく生成温度の高い第二水和物があり、第二水和物の方が大きな熱密度を有し搬送動力を小さくできるため、蓄冷材または冷熱の搬送媒体として用いるには有利である。ただし、上記のような水和物スラリ生成薬剤を含有する水溶液を冷却していくと、過冷却状態の水溶液から第一水和物が生成する過程や過冷却状態の第一水和物から第二水和物が生成する過程を経ることが知られている。このため、大きな過冷却が生じた後に過冷却が解除されると、急激に粘性が増加し、最悪の場合にはシステム中の熱交換器などの機器が閉塞することもある。しかし、上述したように、利用サイトにおける水和物スラリ生成薬剤の水溶液の調整方法が確立していない状況下では、簡便な過冷却解除処置方法も確立されていない。   In addition, the hydrate slurry-forming drug hydrate as described above includes a first hydrate having a low hydration number and a low formation temperature, and a second hydrate having a high hydration number and a high formation temperature. In addition, the second hydrate is advantageous in that it is used as a cold storage material or a cold transport medium because it has a larger heat density and can reduce the transport power. However, when the aqueous solution containing the hydrate slurry-forming agent as described above is cooled, the first hydrate is formed from the supercooled aqueous solution or the first hydrate in the supercooled state. It is known to go through the process of forming dihydrate. For this reason, when supercooling is released after large supercooling occurs, the viscosity rapidly increases, and in the worst case, equipment such as a heat exchanger in the system may be blocked. However, as described above, a simple supercooling release treatment method has not been established under a situation where a method for adjusting an aqueous solution of a hydrate slurry-generating drug at a use site has not been established.

本発明の目的は、水和物スラリの利用サイトにおいて設計条件に応じて水和物スラリ生成薬剤の水溶液を簡便に調整するとともに過冷却解除処置も簡便に実施できる方法を提供することにある。   An object of the present invention is to provide a method capable of easily adjusting an aqueous solution of a hydrate slurry-forming drug according to design conditions at a site where a hydrate slurry is used, and easily performing a supercooling release treatment.

本発明の水和物スラリ生成薬剤の供給方法は、水和物スラリ生成薬剤の濃縮水溶液を利用サイトへ供給し、利用サイトにおいて水和物スラリ生成薬剤の濃縮水溶液を希釈して所定の濃度とすることを特徴とする。   The method for supplying a hydrate slurry-generating drug according to the present invention supplies a concentrated aqueous solution of a hydrate slurry-generating drug to a use site, and dilutes the concentrated aqueous solution of the hydrate slurry-generating drug at the use site to obtain a predetermined concentration. It is characterized by doing.

ここで、所定の濃度は利用サイトで必要とされる蓄熱剤あるいは冷熱輸送媒体としての熱密度や輸送熱量や輸送動力効率に対応するものである。なお、本発明において水和物スラリ生成薬剤とは、厳密には水和物生成薬剤であるが、結果として水和物スラリを生成する薬剤であれば足りる。また、本発明における濃縮水溶液とは、溶質が溶媒に対して相対的に高い濃度で存在する水溶液を意味し、溶質量を増やすことで、溶媒に対する溶質の相対量を増やすことで実現される水溶液、溶媒量を減らすことで、溶媒に対する溶質の相対量を増やすことで実現される水溶液、当初の水溶液に溶質を追加することで実現される水溶液、当初の水溶液から溶媒を除去することで実現される水溶液の何れをも含む。   Here, the predetermined concentration corresponds to the heat density, transport heat amount, and transport power efficiency as the heat storage agent or the cold transport medium required at the use site. In the present invention, the hydrate slurry-generating drug is strictly a hydrate-forming drug, but any drug that generates hydrate slurry as a result is sufficient. In addition, the concentrated aqueous solution in the present invention means an aqueous solution in which a solute is present at a relatively high concentration with respect to the solvent, and an aqueous solution that is realized by increasing the relative amount of the solute with respect to the solvent by increasing the solute mass. It is realized by removing the solvent from the initial aqueous solution, the aqueous solution realized by adding the solute to the original aqueous solution, the aqueous solution realized by increasing the relative amount of solute with respect to the solvent by reducing the amount of solvent Any aqueous solution.

本発明において、利用サイトにおいて水和物スラリ生成薬剤の濃縮水溶液を希釈するとともに過冷却解除剤として微粒子を混入することが好ましい。   In the present invention, it is preferable to dilute the concentrated aqueous solution of the hydrate slurry-generating drug at the use site and to mix fine particles as a supercooling release agent.

本発明において、過冷却解除剤として作用する十分な量の微粒子(例えばカオリン)を含有する水道水を用いて濃縮水溶液を希釈するのが最も簡便である。なお、過冷却解除剤となる適切な微粒子を別途添加してもよいことはもちろんである。   In the present invention, it is most convenient to dilute the concentrated aqueous solution with tap water containing a sufficient amount of fine particles (for example, kaolin) that acts as a supercooling release agent. Needless to say, appropriate fine particles serving as a supercooling release agent may be added separately.

本発明において、屈折率計または電気伝導度計を用いて水溶液中の水和物スラリ生成薬剤の濃度を計測しながら、濃縮水溶液を希釈することが好ましい。   In the present invention, it is preferable to dilute the concentrated aqueous solution while measuring the concentration of the hydrate slurry-forming drug in the aqueous solution using a refractometer or an electric conductivity meter.

本発明においては、利用温度域(例えば5〜12℃)において蓄熱密度の高い第二水和物を生成させるために、水溶液中の水和物スラリ生成薬剤の濃度が18%以下となるように濃縮水溶液を希釈することが好ましい。このことにより第一水和物よりも高い保有熱量または蓄熱密度をもつ第二水和物を生成させることができる。なお、本発明における%とは、重量%の意味である。   In this invention, in order to produce | generate the 2nd hydrate with a high heat storage density in utilization temperature range (for example, 5-12 degreeC), the density | concentration of the hydrate slurry production | generation chemical | medical agent in aqueous solution shall be 18% or less. It is preferred to dilute the concentrated aqueous solution. This makes it possible to produce a second hydrate having a higher heat retention or heat storage density than the first hydrate. In the present invention, “%” means “% by weight”.

本発明においては、水和物スラリ生成薬剤の濃縮水溶液を希釈する際に界面活性剤を混入して、水溶液の搬送動力を低減できるようにすることが好ましい。   In the present invention, it is preferable to mix a surfactant when diluting the concentrated aqueous solution of the hydrate slurry-generating drug so that the conveyance power of the aqueous solution can be reduced.

本発明においては、水和物スラリ生成薬剤の濃縮水溶液を希釈する際に防食剤を混入して、システム中の機器の腐食を抑制することが好ましい。   In the present invention, it is preferable to prevent corrosion of equipment in the system by mixing an anticorrosive agent when diluting the concentrated aqueous solution of the hydrate slurry-generating drug.

なお、濃縮水溶液に過冷却解除剤ならびに必要に応じて界面活性剤および/または防食剤を予め添加しておいてもよいし、過冷却解除剤ならびに必要に応じて界面活性剤および/または防食剤を添加した水を用いて濃縮水溶液を希釈してもよい。これらの方法により、過冷却解除剤、界面活性剤、防食剤の濃度を所望の値に調整できる場合には、さらに微調整を行う必要はない。   In addition, a supercooling release agent and, if necessary, a surfactant and / or an anticorrosive agent may be added to the concentrated aqueous solution in advance, or a supercooling release agent and, if necessary, a surfactant and / or an anticorrosive agent. The concentrated aqueous solution may be diluted with water to which is added. When these methods can adjust the concentrations of the supercooling release agent, the surfactant, and the anticorrosive agent to desired values, no further fine adjustment is necessary.

また、濃縮水溶液を水で希釈した後、水の追加量に見合った量の過冷却解除剤ならびに必要に応じて界面活性剤および/または防食剤を添加して、これらの濃度が所望の値になるように微調整してもよい。   In addition, after diluting the concentrated aqueous solution with water, an amount of supercooling release agent corresponding to the additional amount of water and, if necessary, a surfactant and / or an anticorrosive agent are added to bring these concentrations to the desired values. Fine adjustments may be made so that

また、水和物スラリ生成薬剤の濃縮水溶液の濃度はたとえば30%に調整される。水和物スラリ生成薬剤の濃縮水溶液の濃度は40%に調整してもよい。水和物スラリ生成薬剤の濃縮水溶液の濃度は40%以上に調整してもよい。   Further, the concentration of the concentrated aqueous solution of the hydrate slurry-generating drug is adjusted to 30%, for example. The concentration of the concentrated aqueous solution of the hydrate slurry-generating drug may be adjusted to 40%. The concentration of the concentrated aqueous solution of the hydrate slurry-generating drug may be adjusted to 40% or more.

本発明に係る他の水和物スラリ生成薬剤の供給方法は、水和物スラリの利用サイトへ水和物スラリを生成する薬剤を供給するにあたり、水和物スラリ生成薬剤の濃縮水溶液から水を蒸発させて作製した水和物スラリ生成薬剤の粉末を利用サイトへ供給し、利用サイトにおいて水和物スラリ生成薬剤の粉末を水に溶解して所定の濃度の水溶液とすることを特徴とする。   In another method for supplying a hydrate slurry-forming drug according to the present invention, when supplying a drug for generating a hydrate slurry to a hydrate slurry utilization site, water is supplied from a concentrated aqueous solution of the hydrate slurry-forming drug. The hydrate slurry-generating drug powder produced by evaporation is supplied to a use site, and the hydrate slurry-generating drug powder is dissolved in water at the use site to obtain an aqueous solution having a predetermined concentration.

また、所定の濃度の水溶液とするとともに過冷却解除剤として微粒子を混入することが好ましい。   In addition, it is preferable that the aqueous solution has a predetermined concentration and fine particles are mixed as a supercooling release agent.

この方法でも、過冷却解除剤として作用する微粒子を含有する水道水を用いて前記水和物スラリ生成薬剤の粉末を溶解するのが最も簡便である。   Even in this method, it is simplest to dissolve the powder of the hydrate slurry-generating drug using tap water containing fine particles that act as a supercooling release agent.

また、屈折率計または電気伝導度計を用いて水溶液中の水和物スラリ生成薬剤の濃度を計測しながら、前記水和物スラリ生成薬剤の粉末を溶解することが好ましい。   In addition, it is preferable to dissolve the powder of the hydrate slurry-forming drug while measuring the concentration of the hydrate slurry-forming drug in the aqueous solution using a refractometer or an electric conductivity meter.

また、水溶液中の水和物スラリ生成薬剤の濃度が18%以下になるように、前記水和物スラリ生成薬剤の粉末を溶解することが好ましい。   In addition, it is preferable to dissolve the hydrate slurry-forming drug powder so that the concentration of the hydrate slurry-generating drug in the aqueous solution is 18% or less.

また、水和物スラリ生成薬剤の粉末を溶解する際に、界面活性剤と防食剤のうち少なくとも一つを混入することが好ましい。   In addition, it is preferable to mix at least one of a surfactant and an anticorrosive when the hydrate slurry-forming drug powder is dissolved.

また、過冷却解除剤と界面活性剤および防食剤のうち少なくとも一つを添加した水を用いて、前記水和物スラリ生成薬剤の粉末を溶解してもよい。   Further, the hydrate slurry-forming drug powder may be dissolved using water to which at least one of a supercooling release agent, a surfactant, and an anticorrosive agent is added.

本発明に係るさらに他の水和物スラリ生成薬剤の供給方法は、水和物スラリの利用サイトへ水和物スラリ生成薬剤を供給するにあたり、水和物の調和融点を与える濃度の水和物スラリ生成薬剤の水溶液または水和物の調和融点を与える濃度以上の水和物スラリ生成薬剤の水溶液を利用サイトへ供給し、利用サイトにおいて当該水和物スラリ生成薬剤の水溶液を希釈することを特徴とする。   According to another aspect of the present invention, there is provided a method for supplying a hydrate slurry-forming drug, wherein the hydrate slurry has a concentration that provides a harmonious melting point of the hydrate when the hydrate slurry-forming drug is supplied to a site where the hydrate slurry is used. A feature of the present invention is to supply an aqueous solution of a hydrate slurry-forming agent at a concentration or higher that gives a harmonic melting point of an aqueous solution or hydrate of the slurry-forming agent to a use site and dilute the aqueous solution of the hydrate slurry-forming agent at the use site. And

本発明に係るさらに他の水和物スラリ生成薬剤の供給方法は、水和物スラリの利用サイトへ水和物スラリ生成薬剤を供給するにあたり、水和物の調和融点を与える濃度の水和物スラリ生成薬剤の水溶液または水和物の調和融点を与える濃度以上の水和物スラリ生成薬剤の水溶液に対して濃度調整を施し所望の濃度の水和物スラリ生成薬剤の水溶液を作製し、これを利用サイトへ供給し、利用サイトにおいて当該水和物スラリ生成薬剤の水溶液を希釈することを特徴とする。   According to another aspect of the present invention, there is provided a method for supplying a hydrate slurry-forming drug, wherein the hydrate slurry has a concentration that provides a harmonious melting point of the hydrate when the hydrate slurry-forming drug is supplied to a site where the hydrate slurry is used. Concentration adjustment is performed on an aqueous solution of a hydrate slurry-forming agent at a concentration or higher that gives a harmonic melting point of the aqueous solution or hydrate of the slurry-forming agent to prepare an aqueous solution of the hydrate slurry-forming agent having a desired concentration. It supplies to a use site, and dilutes the aqueous solution of the said hydrate slurry production | generation chemical | medical agent in a use site.

本発明によれば、水和物スラリの利用サイトにおいて水和物スラリ生成薬剤の水溶液を簡便に調整するとともに過冷却解除処置も簡便に実施できる。   According to the present invention, it is possible to easily adjust the aqueous solution of the hydrate slurry-forming drug at the site where the hydrate slurry is used and to easily perform the supercooling release treatment.

本発明においては、上述したように、水和物スラリ生成薬剤の濃縮水溶液を利用サイトへ運搬し、利用サイトにおいて水和物スラリ生成薬剤の濃縮水溶液を希釈するとともに過冷却解除剤として微粒子を混入する。   In the present invention, as described above, the concentrated aqueous solution of the hydrate slurry-generating drug is transported to the use site, and the concentrated aqueous solution of the hydrate slurry-generating drug is diluted at the use site and mixed with fine particles as a supercooling release agent. To do.

水和物スラリ生成薬剤の濃縮水溶液を作製する方法について説明する。
工業的に製造された水和物スラリ生成薬剤の粉末を水に溶解しただけで濃縮水溶液を作製したり、工業的に製造された高濃縮水溶液に水を加えて濃度調製して濃縮水溶液を作製して水和物スラリ生成薬剤を供給すると、水和物スラリ生成薬剤の粉末や高濃縮水溶液の製造過程などで水和物スラリ生成薬剤以外の不純物が含まれることがあり、濃縮水溶液を希釈して空調設備の蓄冷剤や冷熱搬送媒体として使用した際に変色や臭いなどが発生するなどの問題が生じる懸念がある。また水和物スラリ生成薬剤の純度が低い粉末を用いる場合にも同様の問題が生じる。そのため水和物スラリ生成薬剤の粉末に含まれる水和物スラリ生成薬剤以外の不純物を除去する処理を行うことが好ましい。
A method for producing a concentrated aqueous solution of a hydrate slurry-generating drug will be described.
Create a concentrated aqueous solution just by dissolving the industrially produced hydrate slurry-generating drug powder in water, or add water to an industrially manufactured highly concentrated aqueous solution to prepare a concentrated aqueous solution. When the hydrate slurry-forming drug is supplied, impurities other than the hydrate slurry-forming drug may be contained in the hydrate slurry-forming drug powder or highly concentrated aqueous solution manufacturing process. Therefore, there is a concern that problems such as discoloration and odor may occur when used as a regenerator or a cold transport medium for air conditioning equipment. The same problem occurs when using a powder having a low purity of the hydrate slurry-forming drug. Therefore, it is preferable to perform a treatment for removing impurities other than the hydrate slurry-forming drug contained in the powder of the hydrate slurry-forming drug.

水和物スラリ生成薬剤の濃度が30%、40%および40%以上のうちいずれかの濃度の濃縮水溶液を作製する方法を水和物スラリ生成薬剤(ゲスト化合物)としてテトラ−n−ブチルアンモニウムブロマイド(TBAB)を用いる場合について説明する。   Tetra-n-butylammonium bromide using a method for producing a concentrated aqueous solution having a hydrate slurry-forming drug concentration of 30%, 40%, or 40% or more as a hydrate slurry-forming drug (guest compound) A case where (TBAB) is used will be described.

(1)濃度30%の濃縮水溶液を作製する方法
水和物スラリ生成薬剤の粉末を水に溶解した濃度が18%または18%以下の原水溶液を冷却装置および加熱装置を有する濃縮用容器に装入し、その原水溶液を冷却して水和物の結晶を生成する。この濃度のとき、第二水和物が生成する。濃縮用容器から低濃度の残水溶液を排出し、固形物として残った水和物を加熱して水和物を融解し、濃縮された濃縮水溶液を得る。水和物スラリ生成薬剤の粉末に含まれる不純物は残水溶液に残るので濃縮水溶液から除去される。
(1) Method of preparing a concentrated aqueous solution having a concentration of 30% A raw aqueous solution having a concentration of 18% or less of a hydrate slurry-forming drug powder in water is loaded in a concentration container having a cooling device and a heating device. The raw aqueous solution is cooled to produce hydrate crystals. At this concentration, a second hydrate is formed. The low-concentration residual aqueous solution is discharged from the concentration container, and the hydrate remaining as a solid is heated to melt the hydrate to obtain a concentrated concentrated aqueous solution. Impurities contained in the hydrate slurry-forming drug powder remain in the remaining aqueous solution and are removed from the concentrated aqueous solution.

この濃縮水溶液の濃度は第二水和物を構成する水和剤と水分子の比率から計算すると、約33%であるが、実際には約30%の濃度となる。これは、水和物の結晶の塊の周りに水が少量付着して残っているためと考えられる。また第二水和物を選択的に生成する温度または冷却速度で冷却することが好ましい。   The concentration of the concentrated aqueous solution is about 33% when calculated from the ratio of the wettable powder constituting the second hydrate and the water molecules, but it is actually about 30%. This is probably because a small amount of water remains around the hydrate crystal mass. Moreover, it is preferable to cool at the temperature or cooling rate which produces | generates a 2nd hydrate selectively.

また上記の操作にかわって水和物スラリ生成薬剤の粉末を水に溶解した原水溶液を容器に入れ、容器内に冷却管を入れ8℃以下の温度で冷却し、冷却管外面に水和物が付着したら、水和物の付着した冷却管を別の空の容器に入れ、冷却管内に温水を流し、付着した水和物を溶かして、不純物を含まない濃縮水溶液を作製する操作を行ってもよい。この操作によっても第二水和物が生成し濃度30%の濃縮水溶液を作製することができる。   In place of the above operation, a raw aqueous solution in which the powder of the hydrate slurry forming drug is dissolved in water is put in a container, a cooling pipe is put in the container and cooled at a temperature of 8 ° C. or less, and a hydrate is formed on the outer surface of the cooling pipe. If the hydrate adheres, place the cooling tube with hydrate in another empty container, pour warm water into the cooling tube, dissolve the adhered hydrate, and create a concentrated aqueous solution that does not contain impurities. Also good. By this operation, a second hydrate is produced, and a concentrated aqueous solution having a concentration of 30% can be produced.

(2)濃度40%の濃縮水溶液を作製する方法
水和物スラリ生成薬剤の粉末を水に溶解した濃度が18%以上の原水溶液または工業的に製造された水和物スラリ生成薬剤の高濃縮水溶液を冷却装置および加熱装置を有する濃縮用容器に装入し、その原水溶液または高濃縮水溶液を冷却して水和物の結晶を生成する。この濃度のとき、第一水和物が生成する。濃縮用容器から低濃度の残水溶液を排出し、固形物として残った水和物を加熱して水和物を融解し、濃縮水溶液を得る。水和物スラリ生成薬剤の粉末に含まれる不純物は残水溶液に残るので濃縮水溶液から除去される。
(2) Method for preparing a concentrated aqueous solution having a concentration of 40% High concentration of a raw aqueous solution having a concentration of 18% or more of a hydrate slurry-forming drug powder in water or an industrially produced hydrate slurry-forming drug The aqueous solution is charged into a concentration container having a cooling device and a heating device, and the raw aqueous solution or the highly concentrated aqueous solution is cooled to produce hydrate crystals. At this concentration, a first hydrate is formed. The low-concentration residual aqueous solution is discharged from the concentration vessel, and the hydrate remaining as a solid is heated to melt the hydrate to obtain a concentrated aqueous solution. Impurities contained in the hydrate slurry-forming drug powder remain in the remaining aqueous solution and are removed from the concentrated aqueous solution.

この濃縮水溶液の濃度は第一水和物を構成する水和剤と水分子の比率から計算すると、約41%であるが、実際には約40%の濃度となる。これは、水和物の結晶の塊の周りに水が少量付着して残っているためと考えられる。また第一水和物を選択的に生成する温度である8℃以上または冷却速度で冷却することが好ましい。また(1)の方法で作製した濃度30%の濃縮水溶液を用いて上記の操作により濃度40%の濃縮水溶液を作製してもよい。   The concentration of this concentrated aqueous solution is about 41% when calculated from the ratio of the wettable powder constituting the first hydrate to the water molecules, but it is actually about 40%. This is probably because a small amount of water remains around the hydrate crystal mass. Moreover, it is preferable to cool at 8 ° C. or higher, which is a temperature for selectively producing the first hydrate, or at a cooling rate. Alternatively, a concentrated aqueous solution with a concentration of 40% may be prepared by the above operation using the concentrated aqueous solution with a concentration of 30% prepared by the method (1).

また上記の操作にかわって水和物スラリ生成薬剤の粉末を水に溶解した原水溶液を容器に入れ、容器内に冷却管を入れ8℃以上の温度で冷却し、冷却管外面に水和物が付着したら、水和物の付着した冷却管を別の空の容器に入れ、冷却管内に温水を流し、付着した水和物を溶かして、不純物を含まない濃縮水溶液を作製する操作を行ってもよい。この操作によっても第一水和物が生成し濃度40%の濃縮水溶液を作製することができる。   In place of the above operation, a raw aqueous solution obtained by dissolving a hydrate slurry-forming drug powder in water is put in a container, a cooling pipe is put in the container and cooled at a temperature of 8 ° C. or more, and a hydrate is formed on the outer surface of the cooling pipe. If the hydrate adheres, place the cooling tube with hydrate in another empty container, pour warm water into the cooling tube, dissolve the adhered hydrate, and create a concentrated aqueous solution that does not contain impurities. Also good. By this operation, the first hydrate is produced and a concentrated aqueous solution having a concentration of 40% can be produced.

なお水和物スラリ生成薬剤としてTBABを用いた場合の濃度40%の濃縮水溶液を作製する方法において引用した“約41%”というTBABの物性値は、より正確には40.6重量%である。水和物スラリ生成薬剤について広く定義すると、この濃度は「水和物スラリ生成薬剤を水に溶かしたとき調和融点を与える濃度」(調和融点濃度という)の意味である。調和融点濃度では水和物中の水和物生成薬剤の濃度と水溶液中の水和物生成薬剤の濃度が等しくなっている。TBABの濃度40%の濃縮水溶液を作製するために具体的に記載した工程は、TBABに固有な内容を、それに対応する各水和物スラリ生成薬剤に固有な内容に読み替えれば、水和物スラリ生成薬剤を水に溶かしたとき調和融点を与える濃度の水溶液を作製するために広く適用できる。TBABの濃度40%の濃縮水溶液を作製するために具体的に記載した工程では、調和融点濃度の理論値通りの約41%(約40.6%)を正確に実現できるとは限らないが、本発明では、水和物スラリ生成薬剤の調和融点濃度の理論値に近接した濃度、または、その理論的な調和融点濃度の値を目指すものの、結果として、不可避的にその理論的な調和融点濃度の値から外れてしまうことにより実現される、理論的な調和融点濃度の値からはずれた濃度も「水和物スラリ生成薬剤を水に溶かしたとき調和融点を与える濃度」(調和融点濃度)と呼ぶことにしている。   The TBAB physical property value of “about 41%” quoted in the method of preparing a concentrated aqueous solution having a concentration of 40% when TBAB is used as the hydrate slurry-generating agent is more precisely 40.6% by weight. . When broadly defined for a hydrate slurry-forming drug, this concentration means "concentration that gives a harmonic melting point when the hydrate slurry-forming drug is dissolved in water" (referred to as the harmonic melting point concentration). At the harmonic melting point concentration, the concentration of the hydrate forming drug in the hydrate is equal to the concentration of the hydrate forming drug in the aqueous solution. The process specifically described for preparing a concentrated aqueous solution of TBAB having a concentration of 40% can be achieved by replacing the content specific to TBAB with the content specific to each hydrate slurry-generating agent corresponding thereto. It can be widely applied to produce an aqueous solution having a concentration that gives a harmonic melting point when the slurry-forming agent is dissolved in water. In the process specifically described for preparing a concentrated aqueous solution of TBAB having a concentration of 40%, it is not always possible to accurately achieve about 41% (about 40.6%) as the theoretical value of the harmonic melting point concentration. In the present invention, a concentration close to the theoretical value of the harmonic melting point concentration of the hydrate slurry-forming agent or a value of the theoretical harmonic melting point concentration is aimed at, but as a result, the theoretical harmonic melting point concentration is inevitably increased. Concentration deviating from the value of the theoretical harmonic melting point concentration, which is realized by deviating from the value of the value, is also the “concentration that gives the harmonic melting point when the hydrate slurry-forming agent is dissolved in water” (harmonic melting point concentration). I will call it.

上記のように製造される、水和物スラリ生成薬剤を水に溶かしたとき調和融点を与える濃度の水溶液は、まさに、その水和物スラリ生成薬剤に固有の調和融点を与える濃度であるので、例えばTBABの場合ならば約40%という具合に、一定の濃度値となる。このことは、その水溶液を濃縮水溶液としてそのまま利用サイトに搬出又は供給し、その利用サイトで希釈する際、目標濃度値に設定する作業が容易になることを意味している。濃縮水溶液を取り出せば、その濃度は既に既知だからである。また、濃縮水溶液を利用サイトに搬出又は供給する前に、予め濃縮水溶液の濃度を調整しておく必要がある場合も、濃縮水溶液の一定量に対して、所望の量の水和物スラリ生成薬剤を追加したり、所望の量の水を追加したりすることにより、目標濃度値に設定する作業が容易になることを意味している。濃縮水溶液を取り出せば、その濃度は既に既知だからである。それ故、水和物スラリ生成薬剤を水に溶かしたとき調和融点を与える濃度の水溶液を濃縮水溶液として、又はその濃縮水溶液を基準に更に濃度調整を行い、所望の濃度値に設定したものを、利用サイトに搬出又は供給し、利用に供することは、水和物スラリ生成薬剤の供給方法として、格別の技術的特徴と長所があるといえる。   The aqueous solution having a concentration that gives a harmonic melting point when the hydrate slurry-forming agent is dissolved in water, which is produced as described above, is exactly the concentration that gives the inherent harmonic melting point of the hydrate slurry-forming agent. For example, in the case of TBAB, the density value is constant, such as about 40%. This means that the work of setting the target concentration value is facilitated when the aqueous solution is directly carried out or supplied as a concentrated aqueous solution to the use site and diluted at the use site. This is because the concentration is already known if the concentrated aqueous solution is taken out. In addition, when it is necessary to adjust the concentration of the concentrated aqueous solution in advance before the concentrated aqueous solution is carried out or supplied to the use site, a desired amount of the hydrate slurry-generating agent is determined for a certain amount of the concentrated aqueous solution This means that the operation of setting the target concentration value is facilitated by adding water or adding a desired amount of water. This is because the concentration is already known if the concentrated aqueous solution is taken out. Therefore, an aqueous solution having a concentration that gives a harmonic melting point when the hydrate slurry-forming drug is dissolved in water is used as a concentrated aqueous solution, or the concentration is further adjusted with reference to the concentrated aqueous solution, and a desired concentration value is set. It can be said that there are special technical features and advantages as a method for supplying a hydrate slurry-generating drug to be carried out or supplied to a use site and used.

(3)濃度40%以上の濃縮水溶液を作製する方法
(1)の方法で作製した濃度30%の濃縮水溶液または(2)の方法で作製した濃度40%の濃縮水溶液を加熱装置を有する濃縮用容器に装入し、その濃縮水溶液を加熱して水溶液中の水分を蒸発させ濃縮し、濃度40%以上の濃縮水溶液を得る。水和物スラリ生成薬剤の粉末に含まれる不純物は(1)または(2)の操作により除去されている。
(3) Method for producing concentrated aqueous solution having a concentration of 40% or more Concentrated aqueous solution having a concentration of 30% produced by the method of (1) or the concentrated aqueous solution of 40% concentration produced by the method of (2) The container is charged and the concentrated aqueous solution is heated to evaporate the water in the aqueous solution and concentrate to obtain a concentrated aqueous solution having a concentration of 40% or more. Impurities contained in the powder of the hydrate slurry-forming drug are removed by the operation (1) or (2).

また、(1)(2)(3)の方法のように水和物を一度生成した水溶液を濃縮水溶液として利用サイトでの調製用に使用することにより水和物が生成しやすくなる効果ももたらす。   Moreover, the effect which becomes easy to produce | generate a hydrate is also brought about by using the aqueous solution which once produced | generated the hydrate like the method of (1) (2) (3) as a concentrated aqueous solution for preparation at a utilization site. .

水和物スラリ生成薬剤の濃度が30%、40%および40%以上のうちいずれかの濃度の濃縮水溶液が供給者からユーザーの利用サイトへ供給され、ユーザーは利用サイトにおいて設計条件に応じて例えば18%以下の最適な濃度になるように濃縮水溶液を希釈することにより所望の特性を有する水溶液を簡便に調整することができる。   A concentrated aqueous solution having a concentration of a hydrate slurry-generating agent of 30%, 40%, or 40% or more is supplied from the supplier to the user's use site. By diluting the concentrated aqueous solution so as to obtain an optimum concentration of 18% or less, an aqueous solution having desired characteristics can be easily prepared.

また、本発明において用いられる過冷却解除剤は、水和物粒子の生成核となり過冷却を解除(防止)する作用を有する微粒子であり、水溶液中に分散して浮遊するように粒径が10μm以下であることが好ましい。水溶液中における粒径が10μm以下である微粒子の濃度は0.1mg/L以上であれば、水和物を効率よく生成することができ過冷却防止に有効である。   Further, the supercooling release agent used in the present invention is a fine particle having a function of releasing (preventing) supercooling as a nucleation particle nucleation particle, and having a particle size of 10 μm so as to disperse and float in an aqueous solution. The following is preferable. If the concentration of the fine particles having a particle size of 10 μm or less in the aqueous solution is 0.1 mg / L or more, a hydrate can be efficiently produced, which is effective in preventing overcooling.

ここで、水道上水または工業用水の基準の1つとして濁度が用いられ、濁度1度はカオリン濃度で1mg/Lと定義される。カオリンは水道上水または工業用水中において微粒子の形態で浮遊しており、過冷却解除剤として作用する。濁度は一般的な水道上水では約1度(カオリン1mg/L)、工業用水では約20度(カオリン20mg/L)である。したがって、ゲスト化合物を含む水溶液を希釈する水として水道上水または工業用水を用いるだけで、過冷却解除剤を添加したことになる。なお、水溶液中における粒径が10μm以下の微粒子からなる過冷却解除剤の濃度の上限は約100mg/Lである。上限濃度以上に多量に微粒子が分散浮遊していると、システム中の熱交換器の伝熱性能が低下するなどの悪影響が生じる。   Here, turbidity is used as one of the standards of tap water or industrial water, and 1 degree of turbidity is defined as 1 mg / L in kaolin concentration. Kaolin floats in the form of fine particles in tap water or industrial water and acts as a supercooling release agent. Turbidity is about 1 degree for general tap water (Kaolin 1 mg / L) and about 20 degrees for industrial water (Kaolin 20 mg / L). Therefore, the supercooling release agent is added only by using tap water or industrial water as water for diluting the aqueous solution containing the guest compound. The upper limit of the concentration of the supercooling release agent composed of fine particles having a particle size of 10 μm or less in the aqueous solution is about 100 mg / L. If a large amount of fine particles are dispersed and suspended above the upper limit concentration, adverse effects such as deterioration of the heat transfer performance of the heat exchanger in the system occur.

以下、図面を参照して本発明をより詳細に説明する。図1は本発明に係る水和物スラリ生成薬剤の供給方法の一例を説明するフローチャートである。この例では、水和物スラリ生成薬剤(ゲスト化合物)としてテトラ−n−ブチルアンモニウムブロマイド(TBAB)を用いる場合について説明する。   Hereinafter, the present invention will be described in more detail with reference to the drawings. FIG. 1 is a flowchart for explaining an example of a method for supplying a hydrate slurry-generating drug according to the present invention. In this example, a case where tetra-n-butylammonium bromide (TBAB) is used as a hydrate slurry-forming agent (guest compound) will be described.

供給者はTBAB濃度が30%、40%、40%以上のうちいずれかの濃度の濃縮水溶液をタンクローリーまたは容器に入れてユーザーの利用サイトまで運搬し(S1)、ユーザーは利用サイトにおける濃縮水溶液の処置を開始する(S2)。   The supplier puts the concentrated aqueous solution with a TBAB concentration of 30%, 40%, 40% or more into a tank lorry or container and transports it to the user's usage site (S1), and the user sends the concentrated aqueous solution at the usage site. The treatment is started (S2).

濃縮水溶液には予め過冷却解除剤が添加されている場合と添加されていない場合があるので、それに応じて処理を変更する(S3)。濃縮水溶液に過冷却解除剤が添加されていない場合には、微粒子を混入して過冷却を解除できるようにする(S4)。濃縮水溶液に予め過冷却解除剤が添加されている場合には、そのまま濃縮水溶液を水道水で希釈して、TBAB濃度18%以下の水溶液を得る。この間、例えば屈折率計を用いて水溶液中のTBAB濃度をモニターする。TBAB濃度18%以下の水溶液を用いれば、水和物スラリを生成する際に高い熱密度の第二水和物が得られ、搬送動力を小さくできる(S5)。なお、水道水中に過冷却を解除するのに十分な量の微粒子(カオリンなど)が含まれている場合には微粒子を混入する処置(S4)を別途に行う必要はない。   The concentrated aqueous solution may or may not have been added with the supercooling release agent in advance, and the process is changed accordingly (S3). When the supercooling release agent is not added to the concentrated aqueous solution, the supercooling can be released by mixing fine particles (S4). When the supercooling release agent is added to the concentrated aqueous solution in advance, the concentrated aqueous solution is diluted with tap water as it is to obtain an aqueous solution having a TBAB concentration of 18% or less. During this time, the TBAB concentration in the aqueous solution is monitored using, for example, a refractometer. If an aqueous solution having a TBAB concentration of 18% or less is used, a second hydrate having a high heat density can be obtained when producing a hydrate slurry, and the conveyance power can be reduced (S5). In addition, when the amount of fine particles (kaolin or the like) sufficient to release the supercooling is contained in the tap water, it is not necessary to separately perform the treatment (S4) for mixing the fine particles.

次に、必要に応じて水溶液に界面活性剤を混入する。界面活性剤が混入されていると、温水溶液として用いる場合に搬送動力を低減することができる(S6)。さらに、必要に応じて水溶液に防食剤を混入する。防食剤が混入されていると、システムを構成する熱交換器などの機器の腐食を低減することができる(S7)。こうしてTBAB水溶液の調製を完了する(S8)。   Next, a surfactant is mixed in the aqueous solution as necessary. When the surfactant is mixed, the conveyance power can be reduced when used as a warm aqueous solution (S6). Furthermore, an anticorrosive agent is mixed in the aqueous solution as necessary. When the anticorrosive is mixed, corrosion of equipment such as a heat exchanger constituting the system can be reduced (S7). Thus, preparation of the TBAB aqueous solution is completed (S8).

なお、微粒子混入(S4)、水溶液濃度調整(S5)、界面活性剤(S6)、防食剤添加(S7)の各工程の順序は特に限定されない。また、濃縮水溶液には、過冷却解除剤、界面活性剤および防食剤のうち少なくともいずれか1種を予め添加しておいてもよい。この場合、予め添加された過冷却解除剤、界面活性剤、防食剤の量と、利用サイトにおける追加の水量に応じて、これらの添加量を微調整するようにしてもよい。   In addition, the order of each process of fine particle mixing (S4), aqueous solution density | concentration adjustment (S5), surfactant (S6), and anticorrosive addition (S7) is not specifically limited. In addition, at least one of a supercooling release agent, a surfactant and an anticorrosive agent may be added in advance to the concentrated aqueous solution. In this case, the addition amount of the supercooling release agent, the surfactant, and the anticorrosive agent added in advance may be finely adjusted according to the amount of additional water at the use site.

また、TBAB濃度50%以上、例えば52〜53%の濃縮水溶液を希釈するようにしてもよい。   Further, a concentrated aqueous solution having a TBAB concentration of 50% or more, for example, 52 to 53% may be diluted.

以上のような方法を用いることにより、利用サイトにおいて設備設計者の設計に応じた水溶液を得ることができ、濃縮水溶液を購入するだけでシステムを容易に稼動できるようになる。   By using the method as described above, an aqueous solution according to the design of the facility designer can be obtained at the use site, and the system can be easily operated simply by purchasing a concentrated aqueous solution.

また、水和物スラリの利用サイトへ水和物スラリを生成する薬剤を供給するにあたり、水和物スラリ生成薬剤の濃縮水溶液から水を蒸発させて作製した水和物スラリ生成薬剤の粉末を利用サイトへ供給し、利用サイトにおいて水和物スラリ生成薬剤の粉末を水に溶解するとともに過冷却解除剤として微粒子を混入するようにしてもよい。さらに濃縮水溶液と同様の処置を行ってもよい。   In addition, when supplying the hydrate slurry to the site where the hydrate slurry is used, the powder of the hydrate slurry-generating drug produced by evaporating water from the concentrated aqueous solution of the hydrate slurry-generating drug is used. It may be supplied to the site, and the hydrate slurry-forming drug powder may be dissolved in water at the use site, and fine particles may be mixed as a supercooling release agent. Further, the same treatment as that of the concentrated aqueous solution may be performed.

さらに水和物スラリ生成薬剤の濃縮水溶液から水を蒸発させて作製した水和物スラリ生成薬剤の粉末を利用サイトへ供給し、濃縮水溶液を調製した後、濃縮水溶液を作製する際に行ったように冷却して水和物を作製し加熱して融解させる操作を行うと、水溶液から水和物を生成しやすくなる。   Furthermore, the powder of the hydrate slurry-generating drug prepared by evaporating water from the concentrated aqueous solution of the hydrate slurry-generating drug was supplied to the use site, and the concentrated aqueous solution was prepared. When an operation of producing a hydrate by cooling to a temperature and heating and melting it is performed, it becomes easier to produce a hydrate from an aqueous solution.

上記した水和物スラリ生成薬剤の濃度が30%、40%および40%以上のうちいずれかの濃度の濃縮水溶液から水を蒸発させて作製した水和物スラリ生成薬剤の粉末は水和物スラリ生成薬剤以外の不純物を含まないので、空調設備の蓄冷剤や冷熱搬送媒体として使用した際に変色や臭いなどが発生するなどの問題が生じることがなく、貯蔵中に変色や変質することがなく安定して貯蔵することができる。また利用サイトに運搬することも簡便であり、運搬費用を低減することができる。   The powder of the hydrate slurry-forming drug prepared by evaporating water from the concentrated aqueous solution having a concentration of 30%, 40%, or 40% or more of the above-mentioned hydrate slurry-forming drug is a hydrate slurry. Since it contains no impurities other than the generated chemicals, it does not cause problems such as discoloration or odor when used as a regenerator or cold transport medium for air conditioning equipment, and it does not discolor or change quality during storage. It can be stored stably. Moreover, it is also easy to carry to a utilization site, and a transportation cost can be reduced.

本発明の一実施形態に係る水和物スラリ生成薬剤の供給方法を示すフローチャート図。The flowchart figure which shows the supply method of the hydrate slurry production | generation chemical | medical agent which concerns on one Embodiment of this invention.

Claims (19)

水和物スラリを生成して蓄熱剤又は冷熱輸送媒体として利用する利用サイトへ水和物スラリ生成薬剤を供給する方法であって、希釈されることにより所定の濃度になるような高濃度の水和物スラリ生成薬剤の水溶液を利用サイトへ供給し、水和物スラリの熱密度、輸送熱量又は輸送動力効率を、水和物スラリを利用する設備で必要とされる所定の特性とするように、前記利用サイトにおいて前記水溶液の濃度を計測しながら前記水溶液を希釈して、前記水溶液の濃度を前記所定の特性に対応する所定の濃度とすることを特徴とする水和物スラリ生成薬剤の供給方法。 A method of supplying a hydrate slurry-forming agent to a use site that generates a hydrate slurry and uses it as a heat storage agent or a cold transport medium, and has a high concentration of water that is diluted to a predetermined concentration. Supply an aqueous solution of a hydrate slurry-generating agent to the site of use, so that the heat density, transport calorie, or transport power efficiency of the hydrate slurry has the predetermined characteristics required for the facility using the hydrate slurry. the use by diluting the aqueous solution while measuring the concentration of the aqueous solution at the site, the supply of the hydrate slurry generated agent, characterized in that a predetermined concentration corresponding to the concentration of said aqueous solution to said predetermined characteristic Method. 前記水溶液を希釈する際に、過冷却解除剤として微粒子を混入することを特徴とする請求項1に記載の水和物スラリ生成薬剤の供給方法。 The method for supplying a hydrate slurry-forming drug according to claim 1, wherein fine particles are mixed as a supercooling release agent when diluting the aqueous solution . 前記水溶液を希釈する際に、界面活性剤及び防食剤のうち少なくとも一方を混入することを特徴とする請求項1又は2に記載の水和物スラリ生成薬剤の供給方法。   The method for supplying a hydrate slurry-generating agent according to claim 1 or 2, wherein at least one of a surfactant and an anticorrosive agent is mixed when diluting the aqueous solution. 前記水溶液を希釈する前に、前記水溶液に、過冷却解除剤、界面活性剤および防食剤のうち少なくとも一つを予め添加しておくことを特徴とする請求項1又は2に記載の水和物スラリ生成薬剤の供給方法。   The hydrate according to claim 1 or 2, wherein at least one of a supercooling release agent, a surfactant and an anticorrosive agent is added in advance to the aqueous solution before diluting the aqueous solution. A method for supplying a slurry-generating drug. 前記水溶液を水で希釈した後、その希釈に用いた水の追加量に見合った量の過冷却解除剤、界面活性剤および防食剤のうち少なくとも一つを添加することを特徴とする請求項4に記載の水和物スラリ生成薬剤の供給方法。   5. The aqueous solution is diluted with water, and at least one of a supercooling release agent, a surfactant and an anticorrosive agent is added in an amount corresponding to the additional amount of water used for the dilution. A method for supplying a hydrate slurry-forming drug according to claim 1. 過冷却解除剤、界面活性剤および防食剤のうち少なくとも一つが添加された水を用いて、前記水溶液を希釈することを特徴とする請求項1又は2に記載の水和物スラリ生成薬剤の供給方法。   The supply of a hydrate slurry-forming agent according to claim 1 or 2, wherein the aqueous solution is diluted with water to which at least one of a supercooling release agent, a surfactant and an anticorrosive agent is added. Method. 前記水溶液は、水和物を一度生成した水溶液であることを特徴とする請求項1又は2に記載の水和物スラリ生成薬剤の供給方法。   The method for supplying a hydrate slurry-generating drug according to claim 1 or 2, wherein the aqueous solution is an aqueous solution in which a hydrate has been once generated. 水和物スラリを生成して蓄熱剤又は冷熱輸送媒体として利用する利用サイトへ水和物スラリ生成薬剤を供給する方法であって、水和物の調和融点を与える濃度又はそれ以上の濃度の水和物スラリ生成薬剤を含む水溶液を利用サイトへ供給し、水和物スラリの熱密度、輸送熱量又は輸送動力効率を、水和物スラリを利用する設備で必要とされる所定の特性とするように、前記利用サイトにおいて前記水溶液の濃度を計測しながら前記水溶液を希釈して、前記水溶液の濃度を前記所定の特性に対応する所定の濃度とすることを特徴とする水和物スラリ生成薬剤の供給方法。 A method of supplying a hydrate slurry-forming agent to a use site for generating a hydrate slurry and using it as a heat storage agent or a cold transport medium , wherein the water has a concentration that gives a harmonic melting point of the hydrate or higher. Supply an aqueous solution containing a hydrate slurry-forming agent to the user site so that the heat density, transport calorie, or transport power efficiency of the hydrate slurry is a predetermined characteristic required for facilities using the hydrate slurry. In addition, the concentration of the aqueous solution is diluted while measuring the concentration of the aqueous solution at the use site, and the concentration of the aqueous solution is set to a predetermined concentration corresponding to the predetermined characteristic. Supply method. 前記水和物の調和融点を与える濃度又はそれ以上の濃度の水和物スラリ生成薬剤を含む水溶液を希釈する際に、過冷却解除剤として微粒子を混入することを特徴とする請求項8に記載の水和物スラリ生成薬剤の供給方法。   9. The fine particle is mixed as a supercooling release agent when diluting an aqueous solution containing a hydrate slurry-forming agent having a concentration that gives the harmonic melting point of the hydrate or higher. For supplying a hydrate slurry-forming drug. 前記水和物の調和融点を与える濃度又はそれ以上の濃度の水和物スラリ生成薬剤を含む水溶液を希釈する際に、界面活性剤及び防食剤のうち少なくとも一方を混入することを特徴とする請求項8又は9に記載の水和物スラリ生成薬剤の供給方法。   When diluting an aqueous solution containing a hydrate slurry-forming agent at a concentration that gives the harmonic melting point of the hydrate or higher, at least one of a surfactant and an anticorrosive agent is mixed. Item 10. A method for supplying a hydrate slurry-forming drug according to Item 8 or 9. 前記水和物の調和融点を与える濃度又はそれ以上の濃度の水和物スラリ生成薬剤を含む水溶液を希釈する前に、前記水溶液に、過冷却解除剤、界面活性剤および防食剤のうち少なくとも一つを予め添加しておくことを特徴とする請求項8又は9に記載の水和物スラリ生成薬剤の供給方法。   Before diluting an aqueous solution containing a hydrate slurry-forming agent at a concentration that gives the harmonic melting point of the hydrate or higher, at least one of a supercooling release agent, a surfactant, and an anticorrosive agent is added to the aqueous solution. The method for supplying a hydrate slurry-forming drug according to claim 8 or 9, wherein one is added in advance. 過冷却解除剤、界面活性剤および防食剤のうち少なくとも一つを添加した水を用いて、前記水和物の調和融点を与える濃度又はそれ以上の濃度の水和物スラリ生成薬剤を含む水溶液を希釈することを特徴とする請求項8又は9に記載の水和物スラリ生成薬剤の供給方法   Using an aqueous solution to which at least one of a supercooling release agent, a surfactant and an anticorrosive agent is added, an aqueous solution containing a hydrate slurry-forming agent at a concentration that gives a harmonic melting point of the hydrate or higher. The method for supplying a hydrate slurry-producing drug according to claim 8 or 9, wherein the method is diluted. 水和物スラリを生成して蓄熱剤又は冷熱輸送媒体として利用する利用サイトへ水和物スラリ生成薬剤を供給する方法であって、水和物の調和融点を与える濃度又はそれ以上の濃度の水和物スラリ生成薬剤を含む水溶液に対して濃度調整を施し所望の濃度の水和物スラリ生成薬剤を含む水溶液を作製し、当該水溶液を前記利用サイトへ供給し、水和物スラリの熱密度、輸送熱量又は輸送動力効率を、水和物スラリを利用する設備で必要とされる所定の特性とするように、前記利用サイトにおいて前記水溶液の濃度を計測しながら前記水溶液を希釈して、前記水溶液の濃度を前記所定の特性に対応する所定の濃度とすることを特徴とする水和物スラリ生成薬剤の供給方法。 A method of supplying a hydrate slurry-forming agent to a use site for generating a hydrate slurry and using it as a heat storage agent or a cold transport medium , wherein the water has a concentration that gives a harmonic melting point of the hydrate or higher. Concentration adjustment is performed on an aqueous solution containing a hydrate slurry-forming agent to prepare an aqueous solution containing a hydrate slurry-forming agent having a desired concentration, and the aqueous solution is supplied to the use site , transport heat or transport power efficiency, so that the predetermined characteristic required by the facility to use the hydrate slurry by diluting the aqueous solution while measuring the concentration of the aqueous solution in the usage site, the aqueous solution A method for supplying a hydrate slurry-producing drug, wherein the concentration of the hydrate slurry is a predetermined concentration corresponding to the predetermined characteristic. 水和物スラリを生成して利用する利用サイトへ水和物スラリ生成薬剤を供給する方法であって、水和物スラリ生成薬剤の濃縮水溶液から水を蒸発させて作製した水和物スラリ生成薬剤の粉末を利用サイトへ供給し、前記利用サイトにおいて当該粉末を水に溶解して所定の濃度の水溶液とすることを特徴とする水和物スラリ生成薬剤の供給方法。   A method for supplying a hydrate slurry-forming agent to a site for generating and using a hydrate slurry, wherein the hydrate slurry-forming agent is produced by evaporating water from a concentrated aqueous solution of the hydrate slurry-forming agent A method for supplying a hydrate slurry-generating drug, comprising: supplying a powder of the above to a use site, and dissolving the powder in water at the use site to obtain an aqueous solution having a predetermined concentration. 水和物スラリを生成して利用する利用サイトへ水和物スラリ生成薬剤を供給する方法であって、水和物スラリ生成薬剤の濃縮水溶液から水を蒸発させて作製した水和物スラリ生成薬剤の粉末を利用サイトへ供給し、前記利用サイトにおいて当該粉末を水に溶解して所定の濃度の水溶液とするとともに、過冷却解除剤として微粒子を混入することを特徴とする水和物スラリ生成薬剤の供給方法。   A method for supplying a hydrate slurry-forming agent to a site for generating and using a hydrate slurry, wherein the hydrate slurry-forming agent is produced by evaporating water from a concentrated aqueous solution of the hydrate slurry-forming agent A hydrate slurry generating agent characterized in that the powder is supplied to a use site, the powder is dissolved in water at the use site to obtain an aqueous solution of a predetermined concentration, and fine particles are mixed as a supercooling release agent. Supply method. 前記粉末を溶解する際に、界面活性剤及び防食剤のうち少なくとも一つを混入することを特徴とする請求項14又は15に記載の水和物スラリ生成薬剤の供給方法。   16. The method for supplying a hydrate slurry-producing agent according to claim 14 or 15, wherein at least one of a surfactant and an anticorrosive agent is mixed when the powder is dissolved. 過冷却解除剤、界面活性剤および防食剤のうち少なくとも一つを添加した水を用いて、前記粉末を溶解することを特徴とする請求項14又は15に記載の水和物スラリ生成薬剤の供給方法。   The supply of the hydrate slurry-forming agent according to claim 14 or 15, wherein the powder is dissolved using water to which at least one of a supercooling release agent, a surfactant and an anticorrosive agent is added. Method. 水和物スラリを生成して利用する利用サイトへ水和物スラリ生成薬剤を供給する方法であって、水和物スラリ生成薬剤の濃縮水溶液から水を蒸発させて作製した水和物スラリ生成薬剤の粉末を利用サイトへ供給し、前記利用サイトにおいて当該粉末を水に溶解して水和物スラリ生成薬剤を含む水溶液を調製し、当該水溶液を冷却して水和物を作製し加熱して融解させる操作を行った後、前記利用サイトにおいて前記水溶液を希釈して所定の濃度の水溶液とすることを特徴とする水和物スラリ生成薬剤の供給方法。   A method for supplying a hydrate slurry-forming agent to a site for generating and using a hydrate slurry, wherein the hydrate slurry-forming agent is produced by evaporating water from a concentrated aqueous solution of the hydrate slurry-forming agent The powder is supplied to a use site, and the powder is dissolved in water at the use site to prepare an aqueous solution containing a hydrate slurry-forming agent. The aqueous solution is cooled to produce a hydrate, which is heated and melted. A method for supplying a hydrate slurry-generating drug, wherein after the operation is performed, the aqueous solution is diluted at the use site to obtain an aqueous solution having a predetermined concentration. 水和物スラリを生成して利用する利用サイトへ水和物スラリ生成薬剤を供給する方法であって、水和物スラリ生成薬剤の濃縮水溶液から水を蒸発させて作製した水和物スラリ生成薬剤の粉末を利用サイトへ供給し、前記利用サイトにおいて当該粉末を水に溶解して水和物スラリ生成薬剤を含む水溶液を調製し、当該水溶液を冷却して水和物を作製し加熱して融解させる操作を行った後、前記利用サイトにおいて前記水溶液を希釈して所定の濃度の水溶液とするとともに過冷却解除剤として微粒子を混入することを特徴とする水和物スラリ生成薬剤の供給方法。   A method for supplying a hydrate slurry-forming agent to a site for generating and using a hydrate slurry, wherein the hydrate slurry-forming agent is produced by evaporating water from a concentrated aqueous solution of the hydrate slurry-forming agent The powder is supplied to a use site, and the powder is dissolved in water at the use site to prepare an aqueous solution containing a hydrate slurry-forming agent. The aqueous solution is cooled to produce a hydrate, which is heated and melted. A method of supplying a hydrate slurry-generating drug, comprising: diluting the aqueous solution at the utilization site to obtain an aqueous solution having a predetermined concentration and mixing fine particles as a supercooling release agent after the operation of causing the reaction to occur.
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