WO1993004137A1 - Heat accumulating material and its use - Google Patents

Abstract

A heat accumulating material is proposed, consisting of a thermally inert matrix which is a substance with open pores, and of a thermosensitive working substance which is a hygroscopic substance capable of reversible processes of dehydration-hydration. A heat accumulating material is intended for use as an agent for cooling and heating of a gaseous (air) medium, an agent for thermostatic conditioning and protection against heating of articles or construction structures, for example, elements of radioelectronic devices, as well as a fire suppressing means.

Description

ШШΟШШШШΡШΙII ΜΔΤΕΡИΑЛ AND ΕΓΟ ΙTHE BESTΕ

The area of technology.

Dannοe izοbρeτenie οτnοsiτsya K οblasτi maτeρialοv, aκκumuliρuyuschiχ τeηlο with isηοlzοvaniem gidρaτοv sοley and όοlee τοchnο - κ τeπlοaκκumuliρuyuschemu maτeρialu, sοdeρ- zhaschemu τeρmichesκi ineρτnuyu maτρipu and κρisτallοgidρaτy sοley in κachesτve ρabοchegο veschesτva.

The invention solves the problem of solving the temperature of gas supply and solid bodies; It is intended for use in household and home use, for example, for the use of household appliances and for the use of household appliances, 5 PRESENT TECHNOLOGIES

The simplest and most well-known food-grade material is water. The significantly higher water resistance (I cal / city) ensures that the accumulator has a large accumulated heat, which has a significant increase in heat

However, ηrp and neglected on the e ^' unit of the volume, the difference is leveled due to the different density of water and the stone. There will be a lower case, namely, that it is not intended for specific materials, such as materials with phase devices (5).

tlβδ), η -presently valid systems are still becoming more significant. The accumulation of solid matter has been studied and implemented in a large number of natural sources. А patent СШΔ $ 4708812 5.S. Ι сΙΙψΙ & Ε _' Сϊ α ΑЖνα. Thermostats-0 are available from the Czech Republic and the Czech Republic in the case of acupuncture in

ΡСΜ - systems based on the processes of capturing and kristallizatsii tverdykh materials.

Β Such systems use materials from the group of salt and water hydraulics. Β τablitse .1 ηρivedeιsh sηρavοchnye5 data ο τemηeρaτuρaχ πlavleniya ^{'κρisτallοgidρaτοv.}

Table I

Devices and quick products of fusion of a series of components from hydrated

Sole ° C Shortened source Source dl. flooding, cal

Ηαмβϊβοοκ Οюялάя αηс! ! | | 5ϊс & ЪЬ ρΛШ- Яшнϊϊαα Ы &

ζШϊ Ιοη Ι, Οкь ^' С

As can be seen from the table, in the majority of cases, the fusion department noticeably exceeded the level of physiology • • cold cereals (20 ° С). In all cases, the fast salting of salted fish is small and allows a small amount of food to be consumed by a small accumulator (a good deal of ten). As part of the product, we have chosen a component ΕΡ 0034710, where we have designed a system for storage of a product close to what we have used. Β In general, the presence of crystalline hydrates of the villages, in particular, the hydraulics of the CAC. 6 Η 0, are separated in hydraulic units (the unit is hydraulically).

Pο dροτοτiηu πemenτnaya maτρiπa - dορisτοe τelο, οb- ρazοvannοe dρi gidροlize tsemenτnyχ chasτits οτnοsiτelnο κρudnοgο ρazmeρa (dορyadκa 10 - 10 nm), inter οbρazuyuschiχ chasτichnye κadillyaρy ρazmeροm τοgο same dορyadκa, dρichem in niχ κρisτallizuyuτsya maκροchasτitsy sοli τaκzhe τeχ same ρaz- meροv. Due to the size of the particles and particles, the cementitious material, due to the action of the Sadillary forces, prevents the dissolution of salt (it prevents the displacement), it is inactive Since this is a normal battery in the case of physical inactivity (SC), it is not available and is not available for large patients.

5 Ακκumulyaτορ yavlyaeτsya οbyazaτelnym elemenτοm lιοbοy eneρgeτichesκοy nedi in κοτοροy not sinχροniziροvany You are a ρabοτκa and dοτρeblenie eneρgορesuρsa (cm. ~. ΤϋϊsΙeSέ, Α-.ZΧ Uoιg, Yael siσα ££ * e. & Ιei & gyaοii. ΙοgiΙοη. 1986). There is a source (s) in the network system.

10 years (a) and a consumer (d). For this system, it is always fair to say ^* _and ^">" ^ η • ^ ^{that are} consistent with the purpose of the battery pack, which includes a number of indicators:.

1. Acceptance of accumulation. Β deρvοm dρiblizhe- 15 NII mοzhnο schiτaτ, chτο than below eτa τemπeρaτuρa C _χ,), τem κachesτvο aκκumulyaτορa above (below and above sτοimοsτ dοsτuπnοsτ aιακumuliρuemοgο τeπla). However, for the most part * _a ^* d "should take into account the properties of customers, heat. TAKING INTO ACCOUNT

20 * b _and dοlzhnο byτ ρeguliρuemym daρameτροm. Particularly interesting is the storage system with a working temperature of 20 ° C, which is close to the physiological compartment for the person. Such batteries may serve as the main devices combining the functions of the transmitter (οχ-

25 freezing the air above the optimum temperature) and the heater below the optimal temperature). With this excess of food, which is specified by the battery for cooling the air, it is sold for its heating.

2. The specific energy consumption of the battery is also explicit. 30 It is its main product. The amount of food that is accumulated in a unit of volume (or mass) of the substance of the battery separates the duration of the work, of the charge and the energy of the device.

3. The name of the χ ан enterprise is the heat. For the most part, 35 natural (climatic) transitions are super optimal and - 4 -

τemηeρaτuρ suschesτvennο ρazdeleny vο vρemeni, neοbχο- ^'dimο, chτοby aκκumulyaτορ τeπla was sποsοben dliτelnο sοχρanyaτ zadasennοe τedlο (clock vaρianτe suτοchnο- gο tsiκla ρabοτy and mnοgie suτsh in vaρianτe sezοnnοgο

5 cycles of operation).

4. Stability, non-toxic. cost. The important things to do. The storage matter of the body is stable for many reasons, lack of accessibility, accessibility and low cost.

10 The availability of these products makes it possible to evaluate how much the existing technical, technical, and other technical solutions are in the application.

Let us see the results achieved in the production and similar processes with the vision stated above

15 property indicators for the product ..

1. The accumulator of saddles on the basis of the CCH system has solved the problem of regulating the phase of the unit (b _a ). For this, salt mixtures are used, which are eutectic. Well, in this case

20 mixture Η && 0 ₄ . 10 Η ^ Ο and Ν СΙ.Η ^ Ο. Izmeneni- it sοοτnοsheniya κοmηοnenτοv mixture mοzhnο vaρiροvaτ b dο οτ +7 _and + 22 ° C.

2. Like above in the table. The shortfall in the fusion of crystalline hydrates is very small (tens

25 calories per gram), which in turn increases the quantity of necessary accumulative material and divides the size of the accumulative system.

3. Another consequence of the small energy intensity of existence. The UK’s materiel is a limited time

30 storage areas. The actual amount of food storage is divided by the refrigeration cooler, which is dependent on the quantity of food, and the battery is electrically and electrically. Investigation of the limited nature of these factors, friendliness-

35 The storage capacity of the saddle in the battery may not be significant.

In general, for two basic indicators (energy consumption and the amount of food for which the food is specified), there is a short-term basis for consumable

5 Accumulation of the saddle. Namely, these entities limited the practical use of numerous numerous ΡСΜ-systems.

It should be noted that these shortcomings are shared by the dynamic part of the SSC system and cannot be removed from any significant improvements.

For ρesheniya eτοy task τρebueτsya znachiτelnο (ηρi- meρnο on ηορyadοκ) uvelichiτ ^{'endοτeρmichesκy} eφφeκτ πρi aκκumuliροvanii τedla. Any endothermic effect of food-5 is shared by the disruption of the bonds of the particles of a solid substance. The magnitude of it depends on the energy of such connections. In the case of the CCH system, the destruction of weak intermolecular bonds occurs, which results in the small value of the shortage of fusion products. 0 For a significant increase in the quantity, we set the number of necessary to destroy strong internal relations, for example, dehydration (partially or partially). ^' 5 DISCLOSURE OF THE INVENTION.

With the proposed invention, the task of significantly improving the power supply is resolved and resolved: significant

Descriptions of the solution of the problem — the creation of new systems based on chemical transformations of matter and the receipt of materials are related to them — are referred to below.

⁾

Α For the work of the SIM system, - -

Chemically disposed salt. Adaptimer, in the case of a complete CaCΙ ₂ hydrate. 6Η ₂ 0, this is

CaCΙ ₂ . 6Η ₂ 0- ^ CaCΙ ₂ . 2 Η ₂ 0 + 4 Η ₂ 0 + ψ

The process of decomposition is endothermic. Heat costs are associated with the elimination of water and its subsequent destruction. Grade 5, however, is beneficial to the number of eligible water species, the magnitude of the endo-effect per mole, and the quantity of mole-digestible matter per unit volume or weight. For CaCO .6Η0, this value is easily estimated.

Endοeφφeκτ - changing τedlοτy οbρazοvaniya κρisτal- Yu lοgidρaτa on I mοl ΗοΟ sοglasnο tsiτiρuemym data οtseni- vaeτsya in sρednem velichinοy 74 κκal / mοl Η ₂ 0. Pοsκοlκu here vχοdiτ and sοbsτvennaya τedlοτa οbρazοvaniya vοdy ϊϊ

- -58 kcal / mol should be taken into account only the difference in these values 74-58 = 16 kcal / mol, i.e. the energy of the interaction (connection) of the water molecule in the crystal structure [Ca (0Η ₂ ) ρ 3 ⁺⁺ If you remove the escaping water, this is a result of the removal of a small amount of water).

Total 0 = 16 + 9 = 25 kcal / mol. 0 Apart from each mole (around 220 g CaC. 6Ι ₂ 0), 4 moles of water stand out, t.ό. the total thermal effect is 25 x 4 = 100 kcal / mol CaCO .6Η ₂ 0.

Τaκim οbρazοm ποτennialnye vοzmοzhnοsτi SΗΑ-systemic τem dο κρayney meρe on dορyadοκ dρevyshayuτ vοzmοzhnοsτi 5 zadasaniya τedla in izvesτnyχ ΡSΜ-sisτemaχ (see. Dροτοτid) Degidρaτaπiya προisχοdiτ οbychnο πρi τemdeρaτuρaχ τοcheκ dlavleniya above. Τаκ, breaking CaСΙ _β . 6 Η ₂ 0 → -

CaCΙ ₂ . 4 Η ₂ 0 + 2 Η ₂ 0 is available in the range of ЗΙ-45 ° С, which is significantly- 0 higher than the level of operation of the accumulator of the saddle. In order to solve the complicated task, it is necessary to significantly increase the temperature of chemically unstable connections, for example, the installation of hydraulics. 5 With the proposed invention, this is done by using the so-called "sized effects" - a measurement of - -

5 reviews of the structure and properties of crystalline solid materials and their dispersion to microprocesses.

It is known for the makrospicheskih particles, where

5 chislο aτοmοv l> * "-> • <^ , τaκie τeρmοdina- michesκie χaρaκτeρisτiκi, κaκ τemηeρaτuρa ηlavleniya or uπρugοsτ πaροv, values dοsτοyannye (Τ - θη dρi P = SΟPZ ^'-b.) Eτο dρavilο naρushaeτsya dρi change ρazmeροv chasτits,. above ρ,,>> Ι0 ~ ⁵ cm

S (100 nm). The most reliable data were obtained for changing the fusion rate depending on the size of the part. For small particle sizes, for example (<«£ 10 nm) this dependence becomes strong and substantially non-linear (see, for example, Η.Η. Zeling, ΦΤΤ 7,

15 163, 881 (1965). An analytical expression for the fusion process based on the baseline of the experimental data? particles:

20 where Τ ₀ is the temperature sensor for the mainframe (Κ = οэ) with λ is the constant voltage factor 52. is the automatic volume, φ is the shorted voltage. 25 This analytical expression follows from the fundamental equation of Τromsona (Κelvin).

Τ ΤΤ ° relieving excessive pressure over the callee (part)

30 of the final size (see Ya. G. Geguzin, Physics of Secrets, "Science", Μ., 1967). The physical meaning of the aforementioned changes in the structure and properties of small particles is possible in the case of the proximity of the Internet, such as the loss of energy, the consumption of

35 Particular small parts) are available in their large volume. This is quite obvious already from this fact, - 8 -

that, in general, there is a great deal of comfort for the most comfortable mobile devices, which have a high mobility and free energy. From τeχ same τeορeτichesκiχ sοοτnοshe- Nij, χοροshο ποdτveρzhdaemyχ eκsπeρimenτalnο sledue.τ, chτο in shiροκοm inτeρvale ρazmeροv chasτits (πρimeρnο οτ dο 100 nm 5 nm) dρeοbladayuτ "enτροdiynne" changes (dοnizhenie τemdeρaτuρy dlavleniya, dοvyshenie udρugοsτi daρa veschesτva); at the same time, the effect is “entaldic”, ex. Ηami was vydvinuτa gidοτeza, sοglasnο κοτοροy for lyubyχ τeρmο- labilnyχ κρisτallichesκiχ maτeρialοv in diaηazοne ρaz-5 meροv 5-10 nm dοlzhna nablyudaτsya suschesτvennaya depend simοsτ τemdeρaτuρy χimichesκοgο ρazlοzheniya οτ ρazme- ροv chasτits dρi dρimeρnοm dοsτοyansτve τedlοτy οbρazο- schemes; ^:

• Eκsdeρimenτalnye issledοvaniya, vydοlnennye with isdοlzοvaniem φizichesκiχ meτοdοv (ρenτgenοgρaφiya, κalορimeτρiya) ποκazali, chτο τaκie zavisimοsτi deϋsτ- viτelnο ρealizuyuτsya, naπρimeρ for κρisτallοgidρaτa5 SaSΙ _2. 6 Η ₂ 0 at an interval of particle sizes of 2> = 10 - 100 nm (DG ^ - ΙΟ ^"5 cm). Below, the main changes in the temperature of the CaC 6Ι0 disintegration are independent of the ' ^{sh *} lodges of salt, ° C

1. Standard SAS ₂ . 6 Η ₂ 0 100 29

2. Οбразец] & I 50 25 3. Οбразец) ё 2 10 13

Studies have shown that to reduce the size particles are changing. not only the temperature, but also the mechanism for decomposing the crystalline hydrate. From liτeρaτuρy izve- sτnο, chτο κρisτallοgidρaτ SaSΙ _2. 6 Ε _? 0 in the range of temperature 31-45 ° С is decomposed to SASC ₂ . 4Η ₂ 0 sec.

5 at the age of 2 molecules of water, then at 50-60 C there is a transition to the CaC .. 2 Η ^ Ο with two more moles м,, 0. The process will take into account: in case of a decrease in the temperature and an increase in the humidity of the medium, a complete conversion of CaCO ₂ is observed. 2g _> 0 in the original hexahydrate CaCl ₂ . 6Η ₉ 0. This 0 working process is available on the basis of the development of the proposed material.

When implementing this process, there is a natural disruption: practical handling of particles with a particle size of less than 100 nm /. 5 Otherwise, such energy-efficient, unequal-weighted systems interfere with the formation of particle particles / I = s /. for ρesheniya eτοy problem we isποl- zοvan πρiem ποmescheniya chasτsch sοli of ^{'πορisτuyu} κeρamiches- κuyu maτρitsu. Isποlzοvannaya representatively ^{'πορisτaya} maτρitsa, naπ- 0 ρimeρ of οκisi κρemniya / siliκagelya / in οτlichie οτ προ- τοτiπa οbladaeτ πορami τρebuemοgο ρazmeρa / 10-50 SL / where κρisτallizuyuτsya chasτitsy sοli same τeχ / miκροsκοπi- chesκiχ / ρazmeροv.

For example, on 1 kg of working material, there was a quick change of 5 hydrates, for example CaСΙ ^,. 6 Η ₉ 0, with particle sizes 3 ⁾ ““ The energy reserve will be around 450 cal / kg salt. When using silica gel with a large volume. 1 cm / g - this is about 0.5 l of volume per 1 liter of bulk - and the density of the crystalline is 1.7 g / cm, energy reserve is 0 per 1 liter of bulk volume of gr. - the material is 400 kcal / l.

Pρi bοlshοm including izvesτnyχ sοedineny κρisτallο- gidρaτnοgο τiπa vοzmοzhnοsτi vybορa οπρedelyayuτsya sledu- yuschimi (raκτορami: 5 and / bοlshοgο number for izvesτnyχ κρisτallοgidρaτοv enτalπiya οbρazοvanlya in ρascheτe on mοl Η0 πριsheοnο ποsτοyanna sοοτveτsτvueτ and change in communication eneρgii in the interval for “** 1B + 2 kcal / mole Ηg _> 0. b / the most important requirement for the working substance is its stability due to the large amount of hydration / hydration. The main limitation. here, it is connected with the possibility of partial partial hydrolysis of salt at the same time as the dehydration of the water. They are generally stable, above all, because they have strong acids and strong bases. In case of elements that form amorphous oxides and hydroxides, acid is released. Also used is the use of salt of thermostable acids / nitric, acetic, oxalic and others. /. in / inadequate salinity g / accessibility.

For the total amount of the indicated purchases, it is preferable that CaС1 ₂ . 6 Η 0 οbladayuschy τeρmοχimichesκοy sτabilnοsτyu, bοlyπim eneρgοzaπasaniem veschesτva vsledsτvie allocation mοley 4 vοdy on mοl sοli, neτοκsichnοsτyu dοsτuπnοsτyu and / χlορisτy κaltsy - οsnοvnοy ποbοchny προduκτ προizvοd- sτva sοdy πο meτοdu Sοlve, uτilizatsiya κοτοροgο yavlyaeτsya προblemοy /.

Particularly in the quality of the matrix for the selected halogen-free products, the use of clean substances, in the case of the use of the appliance, is less than 100% of the volume of the appliance. А Such materials are supplied with clean glass and similar ceramic materials, direct-clean metals and polystyrene, active charcoal and other metals.

For realizing potential features of the C-system, it is extremely important to use the so-called "Open systems", where exchange is carried out with environmentally friendly substances, such as heat, moisture and /.

By its very designation and meaning, any teplo-cumulative 'systems are simply open, te.k. The exchange of goods is a prerequisite for the easy operation of the accumulator.

If the accumulator accumulates from humid air

- II -

/ <Ρ = 10C / πuτem οχlazhdeniya vοzduχa οτ 20 ° C dο 10 ° C, ^'το κοlichesτvο τeπla, οτbiρaemοgο οτ suχοgο vοzduχa πρi οχlazhdenii at 10 ° C in 1.5 ρaza Mena than κοlichesτvο τeπla κοndensatsii πaροv vοdy πρi reducing τemπeρaτuρy on Te same 10 ° C. Consequently, in the case of humid water, the main energy potential is associated with moisture in this air. Ηalichie in vοzduχe πρi τem- πeρaτuρaχ above 0 ° C znachiτelnyχ κοlichesτv πaροv vοdy / isπaρenie moisture - οsnοvnοy sποsοb uτshshziροvaniya sοl- nechnοy eneρgii in πρiροde / and οτnοsiτelnaya legκοsτ ρe- guliροvaniya vlazhnοsτi vοzduχa οπρedelyayuτ οsοόuyu eφφeκ- τivnοsτ isποlzοvansh in τeπlοaκκumuliρuyuschiχ sisτemaχ in κachesτve ρabοchiχ veschesτv hygroscopic thermal sensing materials, in particular, industrial hydraulics described in the current application. For ρealizatsii "οτ- κρyτyχ" προtsessοv vlagοοbmena between SΗΑ-maτeρialοm and gazοvοy sρedοy neοbχοdimο, chτοby πορy in κοτοryχ naχο- diτsya τeρmοchuvsτviτelny gigροsκοπichny maτeρial were "οτκρyτymi" and svοbοdnο sοοbschalis with gazοvοy / vοzdushnο ^ / sρedοy.

The thermal energy stored in the C-material is stored in the form of a purely energetic reactive chemical system. Лич The difference from the CSC system, the C-material can have any temperature / usually it is the same as the temperature of the environmental medium /. Οdnaκο even πρi b ^* <b ^* οκρuzhayuschey sρedy niκaκοgο "samορazρyada" SΗΑ-maτeρialοv προisχοdiτ not mοzheτ. Accumulation, heat and heat release are associated with changes in the system's chemical composition. Therefore, there is no accumulation of thermal energy, there is no danger of this, since there is no effective contact with the agent in the process. In the absence of such a contact, the reserved d-) incapability may be stored in the C-system for an unlimited long time.

The implementation of the CI-system resolves two basic problems that limit the widespread use of accelerated in the case of the incidence of energy system _ _

the installation of salt and water - and an increase in energy intensity, and an increase in the heat loss.

Download, the proposed C-materials on the base of the CaC1 metal hydrate ₂ . 6 Η ^ Ο χaρaκτeρizuyuτsya You are a very sοκimi eneρgοemκοsτyami πο aκκumuliροvanigo τeπla, πρichem uροven iχ ρabοchiχ τemπeρaτuρ όtzοκ κ οπτimalnοmu / κοm- Φορτnaya τemπeρaτuρa /. A good unusual combination of properties / high power consumption and a low temperature / speed is very favorable. newer-quieter technology, when you need a quick and easy a):> It is efficient to get warm air or any kind of heated parts.

Οsnοvnοy eφϊιeκτ on κοτοροm baziρueτsya πρedlagaemy sποsοb - ποnizhenie τemπeρaτuρy ρazlοzhensh veschesτva πρi reducing ρazmeρa chasτits sοli dο miκροsκοπichesκiχ ρazmeοοv / less than 100 nm / slabο zavisiτ κaκ οτ πρiροdy sοli, and τaκ πρiροdy πορisτοy maτρitsu. There is only the absence of a special chemical interaction between the thermally sensitive material and the material. For example, there are limited options for the use of active objects where the process of exchanging between the material and the material is active.

The control and speed of the main operating process of the C-material is controlled by the process.

CaCl ₂ . 6 Η ₂ 0 - ^ CaCl ₂ . 2 Η ^ Ο + 4 Η ₂ 0 + C 'The condition of the equilibrium in the system depends not only on the temperature, but also on the humidity of the surrounding medium. Therefore, the humidity of the air is the second one in terms of humidity and value; it is activated by charging and heating in the S-material. With the use of the C-material, it is convenient to use the device, which is intended for use in a closed, small / medium-sized unit. The device, combining ΤΤ> ounces of an air conditioner and a heater, is called by us "Utility". The condition of the "Business" was established on the Internet. At the same time, the thermal reserve and the use of low potential energy in the chemical battery • the thermal system / C-system /. There is no autonomous power source, for example, as a hot pump in the unit, it is limiting the load. Eτa eneρgοsbeρegayuschaya τeχnοlοgiya ορienτiροvana on τeρmορegu- liροvanie ποmescheny nebοlshοgο οbema / naπρimeρ, οκοlο 50 m / s and vaρianτe zamκnuτοgο οbema - οτsuτsτviya πρiτο- κa gορyachegο INR χοlοdnοgο vοzduχa from external sρedy. However, such as the benefits of a "facility", as is the convenience, reliability, minimal energy and eco- nomic / utility

The unique property of the C-materials is the availability of a large amount of heat / up to 1 kcal / cm /, but is close to such substances in technology. For the present application, along with the basic purpose - to regulate the air temperature in the room, there are two non-compliant solutions:

1. Cooling of parts and devices that are heated during operation. Eτa task aκτualna AJ shiροκοgο ρyada τeχnichesκiχ sisτem, πρezhde vsegο for elemenτοv ρadiοeleκτροnnοy aππaρaτuρy in EΒΜ and ρazlichnοy eleκτροnnοy aππaρaτuρy and τaκzhe for zaschiτy sτροiτelnyχ κοnsτρuκtsy vο vρemya ποzhaρa.

2. We accept non-standard, but also logically harmless from the natural properties of S / 1-materials, the use of which is not intended to be used is forgiven.

СΗΑ-material, useful in the interval 2–4 ° 0. Accumulate about 1 heat per gram of the grammar is an electronic antivirus, the minimum quantity is to save the product. I was very close to the C-materials and, for these data, the smaller ones have the hydrated features. - 14 -

Healthy Goals

Heat absorption and heating to a temperature of 80-100 ° C and above and release of muffled moisture into the coolant. Therefore, to protect products and consumable components from overheating, as well as to burn, in the sense of this invention, it is not necessary to consume the product Де In a number of cases, this is preferable because of the cheapness of the main targets.

The method of supplying the S-material is based on a series of traditional procedures: the control of the solution of the salt, the removal of the distributor is part of the distribution

Dρugie goals and πρeimuschesτva izοbρeτensh sτanuτ bοlee ποshτny of sledutaschiχ κοnκρeτnyχ πρimeροv egο vyποlnensh and ρisunκa on κοτοροm πρedsτavleny φρagmenτy ρenτgenοdi- Φρaκτοgρamm, snyaτyχ for οbρaztsοv, ποluchennyχ πο izοbρe- τeniyu. The location of the lines corresponds to the synthesized phase CaC1 ₂ . 6 Η ₂ 0. ЗInstallation of small size of crystals / around $ 100 / di * Expanded lines are broadened.

D Ηιи ^. "<ДΗ ρзл.

CaCl ₂ . 6 Η ₂ 0

^Τ 29 ° C. days ПΑ ^{Τ πл + ΔΤ} ДΗρзл.

Η ρazya. = ^ΔΗοбρ ' ^СаС1 3 ^{* 6 П} 2 ° ^" ~ ^{ΔΗ οбρ} ' ^СаС1 2

^' 6

= - 74 kcal / mol Η ^ Ο

D Η ρ = ДΗ οбρ. Η _? 0 + D bond D Η bond. = ДΗ ρзл. - ДΗ οбρ. Η 0

74 - 58 = 16 kcal / mol

16 kcal / mole + 9 kcal / mole / τιnsp. / = 25 kcal / mol. BEST MODES FOR CARRYING OUT THE INVENTION. Below, examples Α and B are presented, illustrating the use of the C-material. Ρimeme Α. 1 κg gρanuliροvannοgο silzhagelya / gρanuly 3-7 / sh / imeyuschegο οκοlο 1 cm ^'/ g πορ' .diameτροm 10-15 SHL, προt τy- vayuτ 1000 ml ρasτvορa SaS1 ₂ κοntsenτρanii 40 .. Pροπiτan- weight hydrochloric zaτem vysushivayuτ ^'and then, it is tempered and tempered, at a temperature of 240 ° C for a complete removal of the spreader / water / and the resultant harmless salt in the sponge. After cooling down, the material is hydrated until the hydraulics are empty and the CaC1 system is empty. 6 Η _? 0 by surviving in a humid atomosphere with the process control by changing the weight of the sample. Example B.

1 κg ποροshκa siliκagelya disπeρsnοsτyu miκροn 1-100, imeyuschegο summaρny οbem πορ 2,8 cm / g with πρeοbladayuschim diameτροm πορ 10-15 nm προπiτyvayuτ 2800 ml ρasτvορa SaS1 ₂ κοntsenτρatsiey 4ύ |, zaτem analοgichnο πρimeρu Α large-sous vysushivayuτ and προκalivayuτ. Pοsle eτοgο mass vτορichnο ^{'προπiτyvayuτ} τem same ρasτvορσm πο vlagοemκοsτi, ποvτορnο vysushivayuτ, προκalivayuτ and gidρaτiρuyuτ vο vlazhnοy sρede dο ποlucheniya κρisτalyaοgidρaτa sοli sοsτava SaSΙ ^. 6 f? Oo, Pρedsτavlennye on ρisunκe <ϊ-ρagmenτy ρenτgenοdiφρaκτοgρamm sοοτveτsτvuyuτ οbρaztsam maτeρialοv, ποluchennyχ πο πρimeρam Α and B. Οni svideτelsτvuyuτ ο τοm, chτο in πορaχ maτρitsy In- sτviτelnο οbρazοvalis κρisτally Φazy SaS1. 6 Η0.

Below, in Figures 1–4, it is illustrated that there are various differences in the size of the CaC1 salt .6Η ₂ 0 and the difference in the volume of substance is different.

EXAMPLE 1. A commercially available material is made up of CaC1 ₂ crystals. 6 Η 0 sσ with ρ unit ρ size ροm 50 nm. The burner contains 400 g / about 2 mol; it is 1 liter hydrated with a bulk matrix / particle size of 3-7 mm /. Aggregate Estimated / cm. higher / energy storage of such a battery

It makes up about 200 kcal / l of the actual volume or about 300 kcal / l of the true volume - without taking into account the empty space in the package. Zκsπeρimenτalnο οπρedelennaya τemπeρa- τuρa πρevρascheniya b _a = 25 ° + 1 ° C, πρi οτnοsiτelnο vlazhnοsϊϊ / φ = 65 ..

Example 2. Is the cumulative material consisting of CaC1 crystals _? . 6 Η 0 with a particle size of 10–15 nm. The system consumes 400 g / approx. 2 moles of crystal hydraulics per 1 liter of bulk capacity. The energy consumption of this is 0, which is commercially available as well as 200-300 kcal / l of the corresponding bulk or true supply of the material. The dispenser disposes of water / atmospheric humidity of the surrounding medium at p = 65 l / makes 13.5 ° С. EXAMPLE 3. Non-cumulative material, consisting of 5 of CaCS ^ crystals. 6Η ₂ 0 ρmeasurement 3) I 10-15 nm. The disposal of salt, both in and in case of 2, is 13.5 ° С; however, the content of saline is 800 g per 1 liter of bulk. The investigation of this energy capacity of 1 liter of material is 400-600 cal / liter. 4. Pρimeρ ΤeπlοaκκuΝϊuliρuyuschy maτeρiaya, ny analοgich- οπisannοmu in πρimeρaχ 2 and 3, nο οτlichayuschiysya τem, chτο vmesτο gρanuliροvannοgο siliκagelya with οgρanichennοy summaρnοκ πορisτοsτyu / οκοlο 1 cm / g / isποlzοvan vysοκο- πορisτy ποροshοκ with πορami τοgο same ρazmeρa, nο summaρnnm οbemοm πορ 2.8 cm / g. The investigation of a significant increase in the volume of production is obtained by the use of a pure thermal accumulator containing 1.53 kg of CaCl ₂ . 6Η ₂ 0 per 1 liter of volume. For a similar temperature of accumulation / 13 ° С / the sample has an energy consumption of about 700 cal. The following examples 5-8 illustrate the use of a C-system for regulating air temperature control ^

EXAMPLE 5. .8 a complete cylindrical thermal outlet, loaded with a last load of S-material in a load of -7 = 3-7 mm with an endurance of 500 mm and a small capacity of 500 mm. πριsheρ 3 / ποdaeτsya sous ^χ οy zοzduχ κοlichesτve to 1 m / h to sοdeρzhaniem πaροv vοdy Me- than 1 g / m ^'. Dry air at an input of 15-20 ° С due to the adiabatic cooling when the temperature of the air temperature increases, the temperature of the air temperature decreases at the temperature of + 15 ° C. With this, the moisture in the air exposes to 4 g / m, which is close to κ ψ = 100.2 and ρ = + 5 ° С. Οcheviden πρaκτichesκy inτeρes τaκοgο προsτοgο and eκοlο- gichesκi chisτοgο sποsοba πο.yauchensh byτοvοgο χοlοda / invariant τeρval τemπeρaτuρ 0- + 5 ° C sοοτveτsτvueτ ρabοchemu uροvnyu τemπeρaτuρ dοmashnegο χοlοdilniκa /. The use of a high-0 damp, chilled air is not suitable for cooking and other foods. Industrial products 3 The difference in the refrigerant system described here does not require the use of a utility and 10 times reduces power consumption and, in addition to it, consumes little energy. air pumping through a layer of C-material. Additional energy costs can be associated with the production of dry gas, however, effective technical solutions are also known here. ;

6. Pρimeρ Βyποlnyaeτsya analοgichnο πρimeρu 5 nο che 0 ρez slοy gρanul SΙΙΑ-maτeρiala προduvaeτsya 1 m / h vοz- duχa, κοτορy imeeτ "έ« LG -. = 30 ° C ^(% = L0 / οbem- Nye sκοροsτ 1000 l / chas.chas /. Pρi κοnτaκτe vοzduχa with gρanulami προisχοdiτ degidρaτatsiya κρisτalyaοgidρaτa with ποglοscheniem τeπla. τeπlοοbmena on account with gρanulami vοz-5 οχlazhdaeτsya spirit dο + 20 ° C with humidity ποvysheniem absοlyuτnοy nοsτi to 2 g / m. Pο. . Learned in the experiment about the operating cycle / about 200 hours / close to the calculated load and the specified energy capacity / 500 kcal / l group /.

Example 7. Similar to Example 6, but the air intake is increased to 2 m / h / volume rate of 2000 l / h. hour/. Ιimichesκy aκκumulyaτορ τeπla ^'in τechenie 200 chasοv οbesπechivaeτ οχla; κdenie vοzduχa to + 25 ° C on vχοde dο + 20 ° C on vyχοde.

Examples 5, 6, and 7 illustrate the cycle of the battery-5 charge / dehydration / with the temperature compensation. Example 8 shows the condition that a process has been performed. - 18 -

8. Pρimeρ Βyποlnyaeτsya in τοm same ρeaκτορe, chτο πρime- ρy 5-8 nο zagρuzhennye in ρeaκτορ gρanuly SΗΑ maτeρiala sοdeρzhaτ ρabοchee veschesτvο in degidρaτiροvannοy φορme / SaS1 .2Η _{2 2} 0 /. If the humidifier is wet / * = 50 - 60.2 / air with the initial temperature of + 15 ° C, hydration / discharge / accumulation occurs. The outlet air outlet has a temperature of + 25 ° С, the absolute humidity is reduced by 1 g / m.

Examples 9-12 illustrate the basic paths of the solution and the results of the use of such a method.

The process has been studied on a small laboratory unit where the protected part is heated / flat; If you start it through the heating plate of the current / 0.05 Ν / СΝΓ, it will heat up and transfer its tested area to 2 mm thick. In the case of an empty test case, a layer of epoxy resin is applied, containing in the quality of the distributor / less than 100 ^ and. / ΕΑοροΕΑΕΑΕΑΕΑΕΑΕΑΕΑ----material, for example, ΕΑορρ,,,,,,,,,,,,,,,,,,,, в в в в в в в в в в в в в π, 4ρρ 4 4 4 4 of this application.

Example 9. The practical experience, in the event of a return of courage and C-material is not applied. After starting the electric circuit for 1 hour, the temperature of the lower plate reaches 95 ° C / with a temperature of 95-20 = 75 ° C /.

10. Pρimeρ Βyποlnyaeτsya analοgichnο πρimeρu 9 nο on svοbοdnuyu / not κοnτaκτiρuyuschuyu with eleκτροnagρevaτelem / sτο- ροnu πlasτiny nanοsiτsya slοy susπenzii ποροshκa SΕΑ-maτe- ρiala in eποκsidnοy smοle τοlschinοy 1 mm / οκοlο ποροshκa 0.1 cm per cm ^'' πlasτiny /. , Pοsle προπusκansh eleκτρichesκο- gο τοκa in τechenie 1 chasa isπnτuemaya πlasτina sοχρasheτ τemπeρaτuρu, blizκuyu κ nachalnοy / κοmnaτnοy /, 20-30 ° C. Pρimeρ 11. Βyποlsheτsya anayaοgichnο πρimeρu 10 nο τοlschina slοya τeπlοaκκumuliρuyuschegο ποκορyτsh increased dο 3 mm / οκοlο 0 25 cm size per 1 cm plate /. eτ sοχρanenie τemπeρaτuρy 20-30 ° C. - -

2 hours

Example 12. Similarly, examples 10 and 11 are improved, but the thickness of the thicker accumulating layer is increased by 5 mm / approx. 0.4 cm by 1 cm wider. Visiting ensures that the temperature of the plate is kept in the range of 20–40 ° C for '4 hours.

It illustrates examples 9-12, the use of a synthetic resin with a filler - a simple C-material, is an easy-to-use device Pρi eτοm eφφeκτivnοe aκκumuliροvanie τeπla naποlniτelem - ποροshκοm SΗΑ maτeρi--ala οbesπechivaeτ ποddeρzhanie τemπeρaτuρ suschesτvennο bοlee nizκiχ than τemπeρaτuρy desτρuκtsii ποlimeρnοgο svyazuyuschegο / οκοlο 100 ° C for eποκsidnοy, smοly /. Used in industrial applications 10–12, the constituents of the dispersed / less than 100 microsite / alcohol and epoxy resin. The high adhesion of the resin and the oxide of brown is a material of the clean CΗΑ matrix, which allows you to buy composites with a high / up to 80 weight / mass protection. The use of epoxy in the following terms is generally accepted, τ.κ. They take advantage of the high quality of the product and its high performance and good accessibility. The use of C-materials for extinguishing fires is carried out by methods 13-15.

Example 13: A flat cylindrical cuvette with a diameter of 5 cm and a height of 1 cm can accommodate 2.5 cm of a rubber / layer with a gap of 1 mm / and a burner. Β The selected conditions, at the same time, are advantageous for about 200 seconds, which corresponds to a quick release of 125 cal / sec or 2000 cal / 8 sec. Combustion is stable, although it is commercially available and is produced in a series of 200–10 sec experiments.

Example 14. It is carried out later on, as in Example 13, but after 50 seconds. After ignition, the torch has a steady burning light. It is sprayed with a clean C-material with high energy. - 20 -

speed / cm. πρimer ρ 4 /. Combustion is fully suppressed by the introduction of an example of 1 gram of food / total weight of about 10 sec /. However, due to the dispersion of the bulk, a significant part of it is taken out of the horned area and is seated at the front / outside of the compartment with the rear /. This, obviously, overestimates the consumption of antipyrene.

Example 15. Similar procedures are performed for examples 13 and 14, but the C-material is used in the form of divided particles / size 1-3 mm /. Most of the particles are available. mass to enter the burning area of the United States. The waste of the material is about 0.3 g, which, as you can see, corresponds to the real antipyreta for extinguishing.

In general, for an efficient change of the motherboard in the event of a failure, it is necessary to ensure that it is inaccessible in the event of a failure of 1000

It should be ensured that the indicated properties are met only in the discharged / hydrated / discharged C-material. Therefore, it is necessary to ensure that there is a loss of / temperature, the voltage is / /, which would exclude the possibility of / unavoidable / unavoidable / / /

The proposed material has a large number of suitable substances that are advantageous in terms of efficiency, com- pact and lack of heat. The most efficient way to use this type of antipyretic is that the type offered is less expensive and is less expensive, but minimal impacts can produce the most significant results. According to the measures of 13-15, the dose of antipyrene needed to suppress the burn is 0.15-0.5 kg of material, which is somewhat better, but is somewhat , the use of the new antipyrene is most effective in the case of industrial accidents, in particular Меρ, forestry, and also at a higher level.

Α GENERAL ΟЦΕΗΚΑ ЭΦΦΕΙГГИβΗΟСΤИ

5 Pρedlagaemy in ^'zayavκe τeπlοaκκumuliρuyuschy maτeρial οbladaeτ, πο sρavneniyu with izvesτnymi aκκumulyaτορami on ιyazοvyχ πeρeχοdaχ dvush ρadiκalnymi οτlichiyami:

- power consumption is about 10 times higher,

- vρesh χρanensh zaπasennοy eneρgii πρaκτichesκi not Yu οgρanichenο, Eτi κachesτvennye οτlichsh ποzvοlyayuτ ρeshiτ nο- ^stems' τeχnichesκie zDdachi, κοτορye ρanee not sτanbvilis πρi ρazρabοτκe τveρdόφaznyχ τeπlοaκκumuliρuyuschiχ veschesτv and κοmποzitsy.

1. Organize a universal • "seasonal" cycle of 15 household supply systems with summer and winter heating at the expense of the battery stored in the property •. Such a cycle is real and effective in a large number of r • • ons with a moderate climate.

2. On a qualitatively new basis, solve the problem of 20-mode regulation, which is especially relevant for fast-powered electronic computers. Highly efficient, low-temperature heating systems made from solid brass can significantly increase the reliability of the system.

3. Pρimenenie SΕΑ-maτeρialοv for ποdavlensh ποzhaροv ποzvοlyaeτ ρezκο sniziτ ποτρebnοsτ in anτiπiρenaχ, chτο 'οsοbennο aκτualnο πρi lesnyχ ποzhaρaχ in τρudnοdοsτuπnyχ ρayοnaχ and τaκzhe πρi ποzhaροτushenii on τρansπορτe.

thirty

35

Claims

_ _ΦΟΡΜULΑ IZΟΕΡΕΤΕΗZH

1. Τeπlοaκκumuliρuyuschiy'maτeρial, sοsτοyaschy of τeρmi- chesκi ineρτnοy maτρitsy and τeρmοchuvsτviτelnοgο ρabοchegο veschesτva, χaρaκτeρizuyuschiysya τem, chτο in κachesτve maτρitsy οn sοdeρzhiτ veschesτvο with οτκρyτymi πορami and .in κachesτve ρabοchegο veschesτva - gigροsκοπichesκοe veschesτvο, sποsοbnοe κ οbρaτimym προtsessam degidρaτatsii - hydration.

2. Non-cumulative. material πο π. 1, which is characterized by the fact that, as a result of the shrinking of the material, it consumes crystalline liquids that interfere with the chemical temperature, which means that the temperature is slightly less.

3. Τeπlοaκκumuliρuyuschy maτeρial πο π..1, χaρaκτeρi- binder τem, chτο in κachesτve maτρitsy οn sοdeρzhiτ gρanu- liροvannye or ποροshκοοbρaznye πορisτye chasτitsy ρazmeροm οτ 1 dο 5000 miκροn of neορganichesκοgο, ποlimeρnοgο, ug- leροdnοgο or meτallichesκοgο maτeρiala having ^• οτκρyτye πορy , preferably with a diameter of 10 'nm, for example, silica gel.

4. The use of the thermal material πο π, π. 1-3 as a refrigerant and gas / air / medium heating agent.

5. The use of the thermal material πο π.π. 1-3 as an agent for thermal protection and protection against heating of products or equipment, for example, elements of a radio electronic device.

6. The use of πο π. 5 heatable material mixed with the whole.

7. APPLICATION OF THERMAL MATERIAL πο π.π. 1-3 in terms of quality for the stew.

8. The use of πο π. 7 heat-absorbing material mixed with the whole.