CN109749719A - It is a kind of that can to keep radiator temperature be 85 degrees Celsius of water tank coolant liquid - Google Patents
It is a kind of that can to keep radiator temperature be 85 degrees Celsius of water tank coolant liquid Download PDFInfo
- Publication number
- CN109749719A CN109749719A CN201711068804.5A CN201711068804A CN109749719A CN 109749719 A CN109749719 A CN 109749719A CN 201711068804 A CN201711068804 A CN 201711068804A CN 109749719 A CN109749719 A CN 109749719A
- Authority
- CN
- China
- Prior art keywords
- water
- tourmaline
- beaker
- degrees celsius
- water sample
- 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
Links
Abstract
Can keep radiator temperature the present invention relates to one kind is the water tank coolant liquid of 85 degrees centigrades, it includes tourmaline (1), solubilizer (2), dispersing agent (3), it absorbs heat reagent (4), distilled water (5), tourmaline (1) is dissolved in water (5), solubilizer (2) increases the solubility of tourmaline by (1), dispersing agent (3) is distributed to tourmaline in hydrone, and heat absorption reagent (4), which is dissolved in the water, increases the caloric receptivity of water (5).They interact, so that it may so that tourmaline is largely dissolved in the water, and then increase the caloric receptivity of water.As shown in Figure 1.
Description
Technical field:
Can keep radiator temperature the present invention relates to one kind is the water tank coolant liquid of 85 degrees centigrades.This is a kind of
In automobile engine full speed running, radiator temperature can be made to be always held at the water tank freezing liquid of 85 degrees centigrades.
Background technique:
Orthodox car water tank freezing liquid can constantly be increased with the operation of engine, temperature, and final temperature can be more than
100 degrees Celsius, and then evaporate, it can not cool down to automobile engine.It is 85 degrees Celsius of left sides that one kind, which can keep radiator temperature,
Right water tank coolant liquid can be in automobile engine full speed running, and keeping own temperature is that 85 degrees centigrades are constant, can not
It can continue to heat up and volatilize, cool down so as to lasting to automobile engine.It is 85 that one kind, which can keep radiator temperature,
The water tank coolant liquid of degrees centigrade is a kind of distilled water dissolved with a large amount of tourmaline, it contains many tourmaline that increase in water
In solubility reagent, also containing many reagents for increasing distilled water caloric receptivity, also containing can much disperse other substances
The reagent dissolved in water.These reagent collective effects, so that it may so that the water tank of automobile engine is in engine full speed running
It is always held at 85 degrees centigrades.
Summary of the invention:
It is a kind of that radiator temperature can be kept for the water tank coolant liquid of 85 degrees centigrades, it is that one kind can keep automobile
Engine temperature is always 85 degrees Celsius of water.This coolant liquid is absorb heat reagent and steaming by tourmaline, solubilizer, dispersing agent
What distilled water was constituted.Solubilizer, dispersing agent increase solubility of the tourmaline in distilled water.When a large amount of tourmaline is dissolved in the water
When, the anion that it is generated will largely absorb the heat in water, and water is made to be difficult to heat up.This just makes the water liter inside radiator
When temperature is to 85 degrees centigrade, it is difficult to be warming up to higher temperature.Dispersing agent is evenly dispersed to tourmaline molecule in hydrone,
And then increase the solubility of tourmaline in water.Heat absorption reagent is dissolved in the water, the heat being absorbed by water, and then makes water
It is difficult to heat up.
The invention patent technical scheme applied to solve the technical problem is:
In the coolant liquid, ferric sulfate, ferric nitrate, dimethylbenzene, propylene glycol is solubilizer, they can increase tourmaline in water
In solubility.K12 (lauryl sodium sulfate), potassium oleate, polysorbas20 reagent, KH560 silane coupling agent are dispersing agents, it
Tourmaline molecule can be made to be distributed in hydrone.Titanium dioxide, sodium benzoate, sodium dihydrogen phosphate, Sodium Polyacrylate, 2- first
Base naphthalene is heat absorption reagent, and the heat in water can be absorbed in they.They interact, so that it may so that tourmaline is largely dissolved in water
In, and then increase the caloric receptivity of water.Their formula is as follows:
A water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, ferric sulfate 5g, ferric nitrate 5g, K12 (dodecyl
Sodium sulphate) 5g, potassium oleate 5g, dimethylbenzene 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml burning
In cup, static 24 hours, takes out solution above and be put into 200ml beaker and heat, outwell bottom precipitation, this water sample is to use alcohol
Lamp is heated beaker 10 minutes and is heated up 10 degrees Celsius.
B water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, ferric sulfate 5g, ferric nitrate 5g, K12 (dodecyl
Sodium sulphate) 5g, potassium oleate 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker, static
It 24 hours, takes out solution above and is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is to be heated to burn with alcolhol burner
It heats up 10 degrees Celsius within cup 10 minutes.
C water sample be tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, K12 (lauryl sodium sulfate) 5g, oleic acid material 5g,
200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker, static 24 hours, takes out solution above
It is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is Celsius with alcolhol burner heating heating 10 in beaker 10 minutes
Degree.
D water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, polysorbas20 reagent 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker, quiet
It only 24 hours, takes out solution above and is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is heated with alcolhol burner
It heats up 10 degrees Celsius within beaker 10 minutes.
E water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, polysorbas20 reagent 5g, dimethylbenzene 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml
In beaker, static 24 hours, takes out solution above and be put into 200ml beaker and heat, outwell bottom precipitation, this water sample is to use wine
Smart lamp is heated beaker 10 minutes and is heated up 10 degrees Celsius.
F water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, K12 (dodecyl sulphate potassium) 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml
In beaker, static 24 hours, takes out solution above and be put into 200ml beaker and heat, outwell bottom precipitation, this water sample is to use wine
Smart lamp is heated beaker 10 minutes and is heated up 10 degrees Celsius.
G water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, K12 (dodecyl sulphate potassium) 5g, dimethylbenzene 5g, 200ml distilled water are put into 500ml volumetric flask and are mutually mixed, then
It pours into 200ml beaker, static 24 hours, takes out solution above and be put into 200ml beaker and heat, outwell bottom precipitation, this
Water sample is to be heated beaker 10 minutes to heat up 10 degrees Celsius with alcolhol burner.
H water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, potassium oleate 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker, and static 24 is small
When, it takes out solution above and is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is to heat beaker 10 with alcolhol burner
10 degrees Celsius of minute heating.I water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, polyacrylic acid
Sodium 5g, 2- methyl naphthalene 5g, potassium oleate 5g, dimethylbenzene 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into
In 200ml beaker, static 24 hours, takes out solution above and be put into 200ml beaker and heat, outwell bottom precipitation, this water sample
It is to be heated beaker 10 minutes to heat up 10 degrees Celsius with alcolhol burner.J water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, phosphorus
Acid dihydride sodium 5g, Sodium Polyacrylate 5g, 2- methyl naphthalene 5g, KH560 silane coupling agent 5g, 200ml distilled water are put into 500ml capacity
Bottle is mutually mixed, then is poured into 200ml beaker, static 24 hours, is taken out solution above and is put into 200ml beaker and heat, outwells
Bottom precipitation, this water sample are to be heated beaker 10 minutes to heat up 10 degrees Celsius with alcolhol burner.
K water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, KH560 silane coupling agent 5g, propylene glycol 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into
In 200ml beaker, static 24 hours, takes out solution above and be put into 200ml beaker and heat, outwell bottom precipitation, this water sample
It is to be heated beaker 10 minutes to heat up 10 degrees Celsius with alcolhol burner.
L water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, propylene glycol 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker, and static 24 is small
When, it takes out solution above and is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is to heat beaker 10 with alcolhol burner
10 degrees Celsius of minute heating.
The beneficial effect of the invention patent is can easily to make radiator using coolant liquid of the present invention
Temperature is always held at 85 degrees centigrades in automobile engine full speed running.
Detailed description of the invention:
The present invention is further described with embodiment with reference to the accompanying drawing.
Fig. 1 is formulation principle figure
In Fig. 1,1. tourmaline, 2. solubilizer, 3. dispersing agents, 4. heat absorption reagents, 5. distilled water.
In Fig. 1, tourmaline (1) is dissolved in water (5), and solubilizer (2) increases the solubility of tourmaline (1), dispersion
Agent (3) is distributed to tourmaline in hydrone, and heat absorption reagent (4), which is dissolved in the water, increases the caloric receptivity of water (5).
Specific embodiment:
Their formula is as follows:
A water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, ferric sulfate 5g, ferric nitrate 5g, K12 (dodecyl
Sodium sulphate) 5g, potassium oleate 5g, dimethylbenzene 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml burning
In cup, static 24 hours, takes out solution above and be put into 200ml beaker and heat, outwell bottom precipitation, this water sample is heating 6
10 degrees Celsius of minute heating.
B water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, ferric sulfate 5g, ferric nitrate 5g, K12 (dodecyl
Sodium sulphate) 5g, potassium oleate 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker, static
It 24 hours, takes out solution above and is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is heating heating 10 in 6 minutes
Degree Celsius.
C water sample be tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, K12 (lauryl sodium sulfate) 5g, potassium oleate 5g,
200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker, static 24 hours, takes out solution above
It is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is to heat up 10 degrees Celsius for heating 5 minutes.
D water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, polysorbas20 reagent 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker, quiet
It only 24 hours, takes out solution above and is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is that heating rises for 10 minutes
10 degrees Celsius of temperature.
E water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, polysorbas20 reagent 5g, dimethylbenzene 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml
In beaker, static 24 hours, takes out solution above and be put into 200ml beaker and heat, outwell bottom precipitation, this water sample is heating
It heats up 10 degrees Celsius within 10 minutes.
F water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, K12 (dodecyl sulphate potassium) 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml
In beaker, static 24 hours, takes out solution above and be put into 200ml beaker and heat, outwell bottom precipitation, this water sample is heating
It heats up 10 degrees Celsius within 10 minutes.
G water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, K12 (dodecyl sulphate potassium) 5g, dimethylbenzene 5g, 200ml distilled water are put into 500ml volumetric flask and are mutually mixed, then
It pours into 200ml beaker, static 24 hours, takes out solution above and be put into 200ml beaker and heat, outwell bottom precipitation, this
Water sample is to heat up 10 degrees Celsius for heating 10 minutes.
H water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, potassium oleate 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker, and static 24 is small
When, it takes out solution above and is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is that heating heating 10 in 10 minutes is taken the photograph
Family name's degree.
I water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, potassium oleate 5g, dimethylbenzene 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker
In, it static 24 hours, takes out solution above and is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is 10 points of heating
Clock heats up 10 degrees Celsius.
J water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, KH560 silane coupling agent 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker
In, it static 24 hours, takes out solution above and is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is 10 points of heating
Clock heats up 10 degrees Celsius.
K water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, KH560 silane coupling agent 5g, propylene glycol 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into
In 200ml beaker, static 24 hours, takes out solution above and be put into 200ml beaker and heat, outwell bottom precipitation, this water sample
It is to heat up 10 degrees Celsius for heating 10 minutes.
L water sample is tourmaline 5g, titanium dioxide 5g, sodium benzoate 5g, sodium dihydrogen phosphate 5g, Sodium Polyacrylate 5g, 2- first
Base naphthalene 5g, propylene glycol 5g, 200ml distilled water is put into 500ml volumetric flask and is mutually mixed, then pours into 200ml beaker, and static 24 is small
When, it takes out solution above and is put into 200ml beaker and heats, outwell bottom precipitation, this water sample is that heating heating 10 in 10 minutes is taken the photograph
Family name's degree.
Claims (1)
1. can keep radiator temperature the present invention relates to one kind is the water tank coolant liquid of 85 degrees centigrades, it includes electrical
Stone (1), solubilizer (2), dispersing agent (3) absorb heat reagent (4), and distilled water (5), tourmaline (1) is dissolved in water (5), solubilizer
(2) increase the solubility of tourmaline (1), dispersing agent (3) is distributed to tourmaline in hydrone, and heat absorption reagent (4) is dissolved in
The caloric receptivity that water (5) are increased in water, the present invention is characterized in this coolant liquid can automobile engine run when,
The temperature of radiator is set to be always held at 85 degrees centigrades.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201711068804.5A CN109749719A (en) | 2017-11-03 | 2017-11-03 | It is a kind of that can to keep radiator temperature be 85 degrees Celsius of water tank coolant liquid |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201711068804.5A CN109749719A (en) | 2017-11-03 | 2017-11-03 | It is a kind of that can to keep radiator temperature be 85 degrees Celsius of water tank coolant liquid |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN109749719A true CN109749719A (en) | 2019-05-14 |
Family
ID=66398040
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201711068804.5A Pending CN109749719A (en) | 2017-11-03 | 2017-11-03 | It is a kind of that can to keep radiator temperature be 85 degrees Celsius of water tank coolant liquid |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN109749719A (en) |
Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101058722A (en) * | 2007-05-29 | 2007-10-24 | 崔仁焕 | Additive for vehicle cooling water |
| JP2008013841A (en) * | 2006-06-30 | 2008-01-24 | Fuyuko Kawaguchi | Additive for antifreeze, and antifreeze |
| CN101270276A (en) * | 2007-03-19 | 2008-09-24 | 辛忠教 | Additive for cooling water and antifreeze, antifreeze added with the same |
| CN104673212A (en) * | 2013-11-30 | 2015-06-03 | 青岛佳尚创意文化有限公司 | Multifunctional automobile antifreeze fluid |
| CN107189770A (en) * | 2016-03-15 | 2017-09-22 | 新高丽绿色有限公司 | For removing the antifreeze solution additive of denitrification and particulate matter and anti-icing fluid containing the additive simultaneously |
-
2017
- 2017-11-03 CN CN201711068804.5A patent/CN109749719A/en active Pending
Patent Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2008013841A (en) * | 2006-06-30 | 2008-01-24 | Fuyuko Kawaguchi | Additive for antifreeze, and antifreeze |
| CN101270276A (en) * | 2007-03-19 | 2008-09-24 | 辛忠教 | Additive for cooling water and antifreeze, antifreeze added with the same |
| CN101058722A (en) * | 2007-05-29 | 2007-10-24 | 崔仁焕 | Additive for vehicle cooling water |
| CN104673212A (en) * | 2013-11-30 | 2015-06-03 | 青岛佳尚创意文化有限公司 | Multifunctional automobile antifreeze fluid |
| CN107189770A (en) * | 2016-03-15 | 2017-09-22 | 新高丽绿色有限公司 | For removing the antifreeze solution additive of denitrification and particulate matter and anti-icing fluid containing the additive simultaneously |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN103436017B (en) | Graphene-polysiloxancomposite composite material and preparation method thereof, micro-fluidic chip and application thereof | |
| CN104069783B (en) | A kind of preparation method of composite micro-capsule of carbon nano-tube modification | |
| CN104479644A (en) | Graphene-type cooling medium as well as preparation method and application thereof | |
| CN102304351B (en) | Preparation method and application of water-soluble environment-friendly heat conduction oil | |
| CN105925018A (en) | Method for preparing nanoscale graphene doped tin antimony oxide thermal insulation dispersion liquid | |
| CN109749719A (en) | It is a kind of that can to keep radiator temperature be 85 degrees Celsius of water tank coolant liquid | |
| CN103468266A (en) | Preparation method of water-soluble upconversion fluorescence nano material | |
| IN266755B (en) | ||
| CN103251679B (en) | Refreshing massage gel and preparation method thereof | |
| CN106244116A (en) | A kind of preparation method of composite shape-stabilized phase change energy storage material | |
| CN204318292U (en) | A kind of can the Temp.-changing cup of quick-cooling and quick-warming | |
| CN205403122U (en) | Soap heating device | |
| CN106477913A (en) | A kind of preparation method of persistent form compound anti-mist film | |
| CN106491392B (en) | A kind of transparent solid perfume and preparation method thereof | |
| CN102092744A (en) | Method for melting fused salt with pure water | |
| CN202173944U (en) | Replaceable thermostatic bath | |
| CN109868120A (en) | One kind can make radiator in subzero 45 degrees Celsius of non-icing anti-icing fluid | |
| CN205336556U (en) | Cotton balls heating device | |
| Amerkhanova et al. | Physicochemical particular qualities of the crystallization process of inorganic heat-storage materials’ melts | |
| Rajagopalan et al. | Hybrid Polymer Salogels for Reversible Entrapment of Salt-Hydrate-Based Thermal Energy Storage Materials | |
| CN102690636A (en) | Solar heat exchange medium | |
| WO2008009047A1 (en) | Heat storage device | |
| CN202361750U (en) | Cooling water circulating device for health-care food production | |
| US1981849A (en) | Heat exchange medium | |
| CN207722727U (en) | A kind of anti-scald magnetic stirring apparatus |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| PB01 | Publication | ||
| PB01 | Publication | ||
| SE01 | Entry into force of request for substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| WD01 | Invention patent application deemed withdrawn after publication | ||
| WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20190514 |