CN1246520A - Ether-base composite gasoline - Google Patents
Ether-base composite gasoline Download PDFInfo
- Publication number
- CN1246520A CN1246520A CN 98112948 CN98112948A CN1246520A CN 1246520 A CN1246520 A CN 1246520A CN 98112948 CN98112948 CN 98112948 CN 98112948 A CN98112948 A CN 98112948A CN 1246520 A CN1246520 A CN 1246520A
- Authority
- CN
- China
- Prior art keywords
- gasoline
- ether
- test
- engine
- fuel
- 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.)
- Granted
Links
Landscapes
- Liquid Carbonaceous Fuels (AREA)
- Exhaust Gas After Treatment (AREA)
Abstract
An ether-base composite gasoline for gasoline engine is prepared from gasoline whose octane value is 30-55 (10-25 wt. portions), C5 fraction oil (0-20) and additive (8-30) through conventional mixing. Its advantages include low content of sulfur, higher content of oxides, high dynamic powder performance, less environmental pollution and low cost.
Description
The invention belongs to the liquid carbon-containing fuel technical field that contains additive, be specifically related to hydrocarbon-containifirst and oxygen containing organic compound.
Present widely used commercial gasoline has RON70, RON80, RON90, wherein RON70 and RON90 gasoline are mainly used in the fuel of gasoline car, for boosting of octane rating, generally adopt and in commercial gasoline, add tetraethyllead, this doped fuel pollutes environment, development along with China petroleum refining industry, substituted doped fuel with white gasoline, got rid of plumbous pollution to environment, but because the component of gasoline does not change, contained hydrocarbon polymer in the gasoline car exhaust, carbon monoxide, sulfur oxide, nitrogen oxide does not still reduce, and particularly the engine of gasoline car contains a large amount of HC and CO in the exhaust under the idling work situation.Along with increasing rapidly of Motor vehicles, environment has been caused serious pollution.
The fuel RON70 that present gasoline car is used and the product cost of RON90 commercial gasoline are very high, and the price that disappears lattice costliness is bigger with international gas price gap, and also have the trend that appreciates at present.
The objective of the invention is to for petrol engine provides a kind of external characteristics and part throttle characteristics and commercial gasoline suitable institute's hydrocarbon-containiproducts in the exhaust, carbon monoxide, sulfur oxide, the new type gasoline engine fuel that nitrogen oxide is few.Another object of the present invention provide a kind of product cost low, disappear and sell low-cost new type gasoline engine fuel.
For achieving the above object, it is the ether-base composite gasoline of being made by following component and weight part proportioning for the solution that the present invention adopts:
Octane value is 10~25 parts in 30~55 a gasoline
0~20 part of C 5 fraction oil
8~30 parts of ether-base gasoline additives
Preferred weight part ratio range of preparation ether-base composite gasoline of the present invention is:
Octane value is 10~20 parts in 30~55 a gasoline
0~20 part of C 5 fraction oil
10~30 parts of ether-base gasoline additives
Selecting octane value in proportioning of the present invention for use is 30~55 gasoline, this gasoline can not be directly as petrolic fuel, in petroleum refining industry as a kind of batching, mix with stop bracket gasoline, be modulated into the gasoline of various octane values, its price is more cheap than commodity RON70 and RON90 gasoline.It in proportioning of the present invention necessary a kind of component.Another component in proportioning of the present invention is a C 5 fraction oil, and promptly the waste liquid in the liquefied petroleum gas (LPG) can only be made solvent, can not make petrolic fuel, and selling price is cheap.Also having a kind of component in proportioning of the present invention is ether-base gasoline additive, be the special a kind of novel liquid fuel additive of applicant, itself also is a kind of fuel, it in proportioning of the present invention necessary a kind of component, occupy certain content, it is a kind of composition, do not contain S, N compound, sulphur content reduction of the present invention, oxycompound are increased, burning is smokeless, the content of hydrocarbon polymer, carbon monoxide, sulfur oxide, nitrogen oxide in the exhaust of gasoline vehicle engine is reduced, reduced the pollution of petrolic exhaust environment.
Ether-base gasoline additive in the proportioning of the present invention is made liquid fuel additive by following proportioning and method for making.
Dme 15.5%
Methyl alcohol 42%
Benzene 39%
Alkylphenol polyoxyethylene 3.3%
2,6_ ditertbutylparacresol 0.2%
With methyl alcohol, benzene, alkylphenol polyoxyethylene, 2, the 6_ ditertbutylparacresol takes by weighing by said ratio, be mixed into mixed solution and import the gas absorption cat head, dme is through quantitatively entering in the tower through gas distributor at the bottom of by tower behind the inert gas dilution, at normal temperatures and pressures, mixed solution is quantitatively flowed down through liquid distributor by cat head, gas of dimethyl ether fully contacts with mixed solution, mixed liquid absorbs, flow out from products export, make ether-base gasoline additive, tail gas is discharged in absorption column of gas after gas-liquid separation.
Preparation technology of the present invention is as follows:
Taking by weighing octane value by proportioning is 30~55 gasoline, C 5 fraction oil, ether-base gasoline additive, joins respectively in the blending kettle, and stirring at normal temperatures and pressures makes its thorough mixing, promptly makes product of the present invention, standby in the molten device of packing into.
In proportioning of the present invention, select different proportionings for use, can be made into the product of the present invention of different octane, below by embodiment, the invention will be further described, but the present invention is not limited only to these examples.
Used raw material and the proportioning thereof of embodiment 1 (is example with 1000 kilograms of products of production the present invention) is:
330 kilograms in straight-run spirit
200 kilograms of C 5 fraction oil
470 kilograms of ether-base gasoline additives
Used raw material and the proportioning thereof of embodiment 2 (is example with 1000 kilograms of products of production the present invention) is:
660 kilograms in straight-run spirit
340 kilograms of ether-base gasoline additives
Used raw material and the proportioning thereof of embodiment 3 (is example with 1000 kilograms of products of production the present invention) is:
260 kilograms in straight-run spirit
160 kilograms of C 5 fraction oil
580 kilograms of ether-base gasoline additives
Used raw material and the proportioning thereof of embodiment 4 (is example with 1000 kilograms of products of production the present invention) is:
460 kilograms in straight-run spirit
310 kilograms of C 5 fraction oil
230 kilograms of ether-base gasoline additives
In order to show beneficial effect of the present invention, the embodiment of the invention 1 product (being numbered CEF-05 in the trial report), the embodiment of the invention 2 products (being numbered CEF-07 in the trial report) are tested through petroleum products quality supervision and test two stations, Shaanxi Province, octane value is according to standard GB/T5487 measurement of test method, sulphur content is according to standard GB/T380 measurement of test method, and test result sees Table 2.
Find out by table 2, the octane value of the embodiment of the invention 1 product and the embodiment of the invention 2 products reaches the octane value of commercial gasoline, the sulphur content of the embodiment of the invention 1 product is 0.02, the sulphur content of the embodiment of the invention 2 products is 0.02, and the sulphur content of the embodiment of the invention 1 product and the embodiment of the invention 2 products is far smaller than commercial RON90 content of sulfur in gasoline 0.15.
The embodiment of the invention 1 product (code name is the CEF-05 ether-base composite gasoline in the trial report) and the embodiment of the invention 2 products (code name is the CEF-07 ether-base composite gasoline in the trial report) have carried out engine rig test through Xian Road Communication Univ. automobile engineering subject experimental center, use the embodiment of the invention 1 product by measuring the BJ492Q motor car engine, the external characteristics of the embodiment of the invention 2 products and commercial RON90 gasoline, part throttle characteristics and idle exhaust emission thing, examine or check the embodiment of the invention 1 product and the embodiment of the invention 2 product application in the effect of BJ492Q engine, and contrast.
1. test conditions
Test apparatus and equipment see Table 1.
Ambient condition:
Pressure: 97.3KPa; Dry-bulb temperature: 297K; Temperature bulb temperature: 292K; Inlet air temperature: 302K.
Fuel density:
Commercial RON90 gasoline: 726kg/m
3
The embodiment of the invention 1 product: 747kg/m
3
The embodiment of the invention 2 products: 773kg/m
3
2. test method
Test is undertaken by GB1105-87 standard " oil engine test stand performance test method ".
(1) warming-up
Engine cooling water temperature remains on 80~85 ℃, and oil temperature remains on 85~90 ℃.
(2) engine uses the embodiment of the invention 1 product
When rotating speed is 2200r/min,, be best, measure the part throttle characteristics that engine test bench characteristic and rotating speed are 1800r/min, 2000r/min, 2200r/min and 2400r/min on this basis the engine adjustment of lighting a fire.When idling speed is 650r/min, the concentration of HC and CO in the measurement emissions from engines.
(3) engine uses the embodiment of the invention 2 products
Test method and the parameter and the engine that need to survey use the embodiment of the invention 1 product identical.
(4) engine uses RON90 gasoline
Test method and the parameter and the engine that need to survey use the embodiment of the invention 1 product identical.
3. experimental data processing and test-results
Testing data is put in order according to the GB1105-87 standard, and carries out the atmospheric condition correction.
(1) the BJ492Q engine use that the external characteristics data of commercial RON90 gasoline, the embodiment of the invention 1 product and the embodiment of the invention 2 products see Table 3, table 4, table 5.
(2) the BJ492Q engine uses that the part throttle characteristics data of commercial RON90 gasoline and the embodiment of the invention 1 product see Table 7, table 8.
(3) the BJ492Q engine uses the part throttle characteristics data of the embodiment of the invention 2 products to see Table 9.
(4) the BJ492Q engine uses commercial RON90 gasoline, the embodiment of the invention 1 product and the embodiment of the invention 2 products when idling, and the HC in the exhaust, CO concentration see Table 6.
4. conclusion (of pressure testing)
Draw as drawing a conclusion from the testing data of table 3~table 9:
(1) on external characteristics, the BJ492Q engine uses the embodiment of the invention 1 product to compare with using commercial RON90 gasoline, and oil consumption on average rises 5.5%, peak power decline 1.9KW.
(2) on external characteristics, the BJ492Q engine uses the embodiment of the invention 2 products to compare with using commercial RON90 gasoline, and oil consumption on average rises 8.7%, peak power decline 2.2KW.
(3) be on the part throttle characteristics of 1800r/min, 2000r/min, 2200r/min and 2400r/min at rotating speed, the BJ492Q engine uses the embodiment of the invention 1 product to compare with commercial RON90 gasoline, the average specific oil consumption rises 4.0%, 4.0%, 4.7%, 4.5% respectively.
(4) be on the part throttle characteristics of 1800r/min, 2000r/min, 2200r/min and 2400r/min at rotating speed, the BJ492Q engine uses the embodiment of the invention 2 products to compare with commercial RON90 gasoline, and the average specific oil consumption rises 6.3%, 7.1%, 6.0%, 6.6% respectively.
(5) the BJ492Q engine uses the embodiment of the invention 1 product to compare with commercial RON90 gasoline, in the idle exhaust emission HC density loss 27.3%, the CO density loss 12.5%.
(6) the BJ492Q engine uses the embodiment of the invention 2 products to compare with commercial RON90 gasoline, in the idle exhaust emission HC density loss 17.3%, the CO density loss 8.3%.
The embodiment of the invention 1 product (code name is CEF05 in the trial report) and the embodiment of the invention 2 products (being CEF07 in the trial report) have carried out motor road test through Xian Road Communication Univ. automobile engineering subject experimental center, the check automobile is dynamic property, the fuel economy of fuel with commercial RON90 gasoline and the embodiment of the invention 1 product and the embodiment of the invention 2 products respectively, and contrasts.
1. test the employing standard
(1) GB/T 12543-90 automobile acceleration test method
(2) GB/T 12545-90 automotive fuel wastage test method
2. test and use instrument
TGT-100 type platform scale, DZM2 meteorological observation instrument, CTM-4F type automobile and tractor comprehensive tester.
3. test vehicle
Factory plate model: four reach SDJ6470; The trade mark: Shan A34929
Motor Number: 9300602; Vehicle frame number: 942001
Technology status: good; Actual service life before the test: 10.3 ten thousand kms
Use fuel: commercial RON90 gasoline, the embodiment of the invention 1 product, the embodiment of the invention 2 products.
4. test subject
(1) direct high full throttle acceleration test;
(2) the average use fuel consumption trial under the qualifications.
5. test conditions
Test site: Xian Road Communication Univ. motor road test field, Xi'an to Tongchuan Class I highway, Xi'an to Tongchuan round-trip distance is 55km.
Test period: on July 2nd, 1998
Barometric point: 97.6KPa
Envrionment temperature: 32 ℃
6. test explanation
(1) does respectively in the simultaneous test and stablize the idling adjustment;
(2) ignition advance angle keeps former adjustment constant in the simultaneous test.
7. test-results
(1) direct high full throttle acceleration test
Direct high full throttle acceleration test carries out in Xian Road Communication Univ. motor road test field, and the record automobile accelerates to pick-up period of 80km/h by 20km/h, and testing data sees Table 10.
The SDJ6470 automobile uses the embodiment of the invention 1 product to compare as fuel with using commercial RON90 gasoline as seen from Table 10, and the direct high full throttle accelerates to 80km/b by 20km/h, and acceleration characteristics is suitable.The SDJ6470 automobile uses the embodiment of the invention 2 products to compare as fuel with using commercial RON90 gasoline, and the direct high full throttle was slightly increased by the time that 20km/h accelerates to 80km/h, increased by 1.04 seconds.
(2) the average use fuel consumption trial under the qualifications
Average use fuel consumption trial under the qualifications is carried out to Tongchuan Class I highway in Xi'an, round-trip distance 50km, and average speed 70km/h, test-results sees Table 11.
Find out that by table 11 the SDJ6470 automobile uses the embodiment of the invention 1 product to compare as fuel with using commercial 90 gasoline, hundred kilometric fuel consumptions increase 0.18kg.The SDJ6470 automobile uses the embodiment of the invention 2 products to compare as fuel with using commercial 90 gasoline, and hundred kilometric fuel consumptions increase 0.63kg.
As mentioned above, the embodiment of the invention 1 product and the embodiment of the invention 2 products are pressed the explanation of national standard detected result through quality testing department, after several combination of components in the proportioning of the present invention, can improve the octane value of low octane value gasoline, ether-base gasoline additive has become the important stable elements of ether-base composite gasoline, make gasoline component that bigger variation take place, compare with commercial gasoline, sulphur content reduces, oxygenatedchemicals increases.The embodiment of the invention 1 product and the embodiment of the invention 2 products are through engine rig test and motor road test, external characteristics, dynamic property, train operation performance that the embodiment of the invention 1 product and the embodiment of the invention 2 products and commercial RON90 gasoline are described are suitable, hundred kilometers oil consumptions are close, and the pollutent in the exhaust descends.The present invention can be used as petrolic ideal fuels.
The instrument and equipment that table 1 engine rig test is used
Title | Specifications and models | Production unit | Unit is identified in metering |
Engine | ??BJ492Q | Internal-combustion engine plant, Beijing | |
Dynamometer machine | ??CW150 | Suichang dynamic test instrument factory | Shaanxi Province quantitative study institute |
The oil consumption meter | ??DF313 | Japan ONO SOKKI company | Shaanxi Province quantitative study institute |
The ventilation dry hygrometer | ??DHM2 | Tianjin meteorological ocean instrument plant | Shaanxi Province quantitative study institute |
Moving cistern mercurial barometer | ??DYM1 | Changchun meteorologic instrument factory | Shaanxi Province quantitative study institute |
The COHC analyser | ??MEXA324F | Foshan Analyzer Factory | Shaanxi Province quantitative study institute |
The octane value sulphur content synopsis of table 2 embodiment 1 and embodiment 2 products and commercial 90 gasoline
Table 3 uses RON90 petrol engine external characteristics data
Name of product | Octane value (RON) is not less than | Sulphur content % (m/m) is not more than |
????CEF-05 | ????94.2 | ????0.02 |
????CEF-07 | ????80.1 | ????0.02 |
RON90 gasoline | ????90 | ????0.15 |
Correction factor: 1.04 n P Gs Peo Meo ge Gtr/min ml/30s kw N.m g/kw.h kg/h1600,19.8 89.3 24.3 144.9 334.0 7.81800 19.8 106.8 27.3 144.9 355.1 9.32000 19.9 121.3 30.5 145.6 361.1 10.62200 20.2 128.5 34.1 147.8 342.6 11.22400 20.1 134.6 37.0 147.1 330.6 11.72600 20.0 148.0 39.8 146.3 337.2 12.93000 19.0 157.3 43.7 139.0 327.0 13.73200 18.0 163.3 44.1 131.7 335.9 14.23600 16.5 170.0 45.5 120.7 339.1 14.8 tables 4 use CEF-05 engine fuel external characteristics data
Correction factor: 1.04 n P Gs Peo Meo ge Gtr/min ml/30s kw N.m g/kw.h kg/h1600,20.0 94.0 24.5 146.3 358.1 8.41800 20.4 110.2 28.1 149.3 365.9 9.92000 20.4 123.3 31.3 149.3 368.4 11.12200 20.2 130.8 34.1 147.8 358.8 11.72400 20.0 136.4 36.8 146.3 346.4 12.22600 20.0 149.5 39.8 146.3 350.5 13.43000 18.5 159.4 42.5 135.4 350.1 14.33200 17.8 166.7 43.6 130.2 356.8 14.93600 15.6 172.4 43.0 114.1 374.2 15.5 tables 5 use CEF-07 engine fuel external characteristics data
Correction factor: 1.04 n P Gs Peo Meo ge Gtr/min ml/30s kw N.m g/kw.h kg/h1600,19.7 89.4 24.2 144.1 357.8 8.31800 19.9 106.6 27.4 145.6 375.4 9.92000 20.0 120.3 30.6 146.3 379.4 11.22200 19.8 128.4 33.4 144.9 371.9 11.92400 19.7 134.1 36.2 144.1 357.8 12.42600 19.6 148.1 39.0 143.4 366.6 13.73000 18.2 156.2 41.8 133.2 360.9 14.53200 17.4 162.4 42.7 127.3 367.9 15.13600 15.7 170.4 43.3 114.9 380.3 15.8 table 6 idle exhaust emission substrate concentration test result fuel RON90 CEF-05 CEF-07CO (%) 2.4 2.1 2.2HC (ppm), 1,100 800 910 tables 7 use RON90 petrol engine part throttle characteristics data
n=1800?r/minNO.???????P????????Gs????????Pe????????ge???????Gt
ml/30s??????kw???????g/kw.h????kg/h?1???????19.1?????105.4?????25.3???????363.2?????9.2?2???????18.3?????80.7??????24.2???????290.3?????7.0?3???????16.3?????73.7??????21.6???????297.6?????6.4?4???????15.0?????72.1??????19.9???????316.4?????6.3?5???????14.3?????68.9??????18.9???????317.2?????6.0?6???????12.0?????60.5??????15.9???????331.9?????5.3?7???????10.5?????57.6??????13.9???????361.1?????5.0?8???????8.9??????55.9??????11.8???????413.4?????4.9
n?=?2000?r/minNO.???????P????????Gs????????Pe?????????ge???????Gt
ml/30s??????kw????????g/kw.h????kg/h?1???????19.9?????113.9?????29.3???????339.1?????9.9?2???????17.8?????90.1??????26.2???????299.9?????7.8?3???????16.8?????86.0??????24.7???????303.3?????7.5?4???????15.1?????78.1??????22.2???????306.4?????6.8?5???????13.0?????73.6??????19.1???????335.4?????6.4?6???????12.5?????68.4??????18.4???????324.2?????6.0?7???????10.0?????65.1??????14.7???????385.7?????5.7
n?=?2200??r/minNO.???????P????????Gs????????Pe??????????ge???????Gt
ml/30s??????kw????????g/kw.h????kg/h?1???????19.6?????124.0?????31.7???????340.7?????10.8?2???????17.8?????99.3??????28.8???????300.4?????8.7?3???????17.0?????94.0??????27.5???????297.8?????8.2?4???????15.6?????90.1??????25.2???????311.1?????7.8?5???????13.6?????82.4??????22.0???????326.3?????7.2?6???????11.6?????74.3??????18.8???????345.0?????6.5?7???????10.2?????71.4??????16.5???????377.0?????6.2
n?=?2400?r/minNO.???????P????????Gs????????Pe?????????ge????????Gt
Ml/30s kw g/kw.h kg/h 1 20.0 134.6 35.3 332.2 11.7 2 19.0 115.0 33.5 298.8 10.0 3 18.0 106.2 31.8 291.3 9.3 4 16.0 97.9 28.2 302.1 8.5 5 14.8 91.3 26.1 304.5 8.0 6 11.6 83.6 20.5 355.8 7.3 7 9.6 78.4 16.9 403.2 6.8 8 7.0 72.5 12.4 511.3 6.3 tables 8 use CEF-05 engine fuel part throttle characteristics data
n?=?1800?r/minNO.??????P?????????Gs????????Pe????????ge?????????Gt
ml/30s??????kw???????g/kw.h?????kg/h
19.6??????113.3??????25.9???????391.5?????10.2
18.8??????92.2???????24.9???????332.2?????8.3
17.7??????82.3???????23.4???????314.9?????7.4
16.4??????77.6???????21.7???????320.5?????7.0
14.8??????70.5???????19.6???????322.6?????6.3
12.0??????63.5???????15.9???????358.4?????5.7
10.6??????58.1???????14.0???????371.2?????5.2
8.5???????54.4???????11.3???????433.5?????4.9
n=2000?r/minNO.?????P?????????Gs?????????Pe?????????ge????????Gt
ml/30s??????kw???????g/kw.h?????kg/h?1?????20.2??????122.4??????29.7???????369.4?????11.0?2?????18.2??????94.4???????26.8???????316.2?????8.5?3?????17.2??????87.1???????25.3???????308.7?????7.8?4?????15.8??????80.9???????23.2???????312.1?????7.3?5?????14.2??????75.2???????20.9???????322.8?????6.7?6?????12.3??????70.9???????18.1???????351.4?????6.4?7?????10.0??????66.4???????14.7???????404.7?????6.0
n=2200?r/minNO.?????P?????????Gs?????????Pe??????????ge???????Gt
ml/30s??????kw????????g/kw.h????kg/h?1?????20.0??????132.4??????32.4???????366.8?????11.9?2?????19.0??????119.1??????30.7???????347.4?????10.7?3?????18.2??????106.3??????29.4???????323.7?????9.5?4?????16.0??????91.0???????25.9???????315.2?????8.2?5?????14.6??????87.7???????23.6???????332.9?????7.9?6?????12.6??????78.1???????20.4???????343.5?????7.0?7?????11.0??????74.3???????17.8???????374.3?????6.7
n=2400?r/minNO.??????P????????Gs?????????Pe??????????ge???????Gt
Ml/30s kw g/kw.h kg/h 1 19.6 136.4 34.6 353.5 12.2 2 18.4 114.1 32.5 315.0 10.2 3 17.0 103.9 30.0 310.5 9.3 4 15.8 98.6 27.9 317.0 8.8 5 14.8 91.5 26.1 314.0 8.2 6 12.0 85.4 21.2 361.5 7.7 7 10.2 81.4 18.0 405.4 7.3 8 8.5 79.1 15.0 472.7 7.1 tables 9 use CEF-07 engine fuel part throttle characteristics data
n=1800?r/minNO.??????P????????Gs?????????Pe????????ge????????Gt
ml/30s???????kw???????g/kw.h????kg/h?1?????19.5?????111.4???????25.8??????400.4??????10.3?2?????18.7?????92.0????????24.8??????344.8??????8.5?3?????17.5?????83.1????????23.2??????332.8??????7.7?4?????16.1?????76.9????????21.3??????334.8??????7.1?5?????14.7?????70.1????????19.5??????334.2??????6.5?6?????12.5?????62.3????????16.5??????349.3??????5.8?7?????10.5?????57.4????????13.9??????383.1??????5.3?8?????8.7??????55.7????????11.5??????448.7??????5.2
n?=?2000?r/minNO.?????P????????Gs??????????Pe?????????ge????????Gt
ml/30s???????kw???????g/kw.h?????kg/h?1?????20.0?????120.4???????29.4??????379.7??????11.2?2?????18.9?????96.7????????27.8??????322.7??????9.0?3?????16.7?????86.4????????24.6??????326.3??????8.0?4?????15.3?????80.7????????22.5??????332.7??????7.5?5?????14.0?????72.8????????20.6??????328.0??????6.8?6?????12.5?????70.6????????18.4??????356.3??????6.5?7?????10.5?????66.4????????15.4??????398.9??????6.2
n=2200?r/minNO.?????P????????Gs??????????Pe????????ge????????Gt
ml/30s???????kw???????g/kw.h?????kg/h?1?????20.0?????131.7???????32.4??????377.6??????12.2?2?????19.0?????109.5???????30.7??????330.5??????10.2?3?????17.5?????97.4????????28.3??????319.2??????9.0?4?????16.2?????91.4????????26.2??????323.5??????8.5?5?????14.9?????86.4????????24.1??????332.5??????8.0?6?????13.5?????79.1????????21.8??????336.0??????7.3?7?????10.6?????73.1????????17.1??????395.4??????6.8
n=2400?r/minNO.??????P???????Gs??????????Pe?????????ge????????Gt
ml/30s????????kw???????g/kw.h????kg/h?1?????19.7?????131.6???????34.8??????351.1??????12.2?2?????17.6?????109.3???????31.1??????326.4??????10.1?3?????16.8?????96.1????????29.6??????300.7??????8.9?4?????14.5?????90.4????????25.6??????327.7??????8.4?5?????13.2?????87.2????????23.3??????347.2??????8.1?6?????11.0?????81.7????????19.4??????390.4??????7.6?7?????9.0??????77.3????????15.9??????451.5??????7.2?8?????6.5??????74.1????????11.5??????599.2??????6.9
The table 10 direct high full throttle pick-up period
The speed of a motor vehicle (km/h) | RON90 (second) | CEF05 (second) | CEF07 (second) |
????20 | ????0 | ????0 | ????0 |
????30 | ????4.57 | ????4.69 | ????4.82 |
????40 | ????9.0 | ????9.53 | ????9.61 |
????50 | ????13.93 | ????14.17 | ????14.50 |
????60 | ????19.33 | ????19.43 | ????20.0 |
????70 | ????25.38 | ????25.82 | ????26.60 |
????80 | ????32.36 | ????32.90 | ????33.40 |
Average use fuel consumption under table 11 qualifications
Test event | ???RON90 | ???CEF05 | ???CEF07 |
Fuel consumption (kg) | ????5.35 | ????5.45 | ????5.70 |
Hundred kilometric fuel consumptions (hundred kilometers of kg/) | ????9.73 | ????9.91 | ????10.36 |
Claims (2)
1. ether-base composite gasoline composition, its component and content (content is weight part) are:
Octane value is 10~25 parts in 30~55 a gasoline
0~20 part of C 5 fraction oil
8~30 parts of ether-base gasoline additives
2. according to the described ether-base composite gasoline composition of claim 1, wherein the weight proportion of each raw material is:
Octane value is 10~20 parts in 30~55 a gasoline
0~20 part of C 5 fraction oil
10~30 parts of ether-base gasoline additives
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN98112948A CN1077133C (en) | 1998-08-27 | 1998-08-27 | Ether-base composite gasoline |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN98112948A CN1077133C (en) | 1998-08-27 | 1998-08-27 | Ether-base composite gasoline |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1246520A true CN1246520A (en) | 2000-03-08 |
CN1077133C CN1077133C (en) | 2002-01-02 |
Family
ID=5222735
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN98112948A Expired - Fee Related CN1077133C (en) | 1998-08-27 | 1998-08-27 | Ether-base composite gasoline |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN1077133C (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103184083A (en) * | 2011-12-30 | 2013-07-03 | 李述玉 | Oxygen-containing, combustion-supporting, environment-friendly and energy-saving gasoline, and production method thereof |
CN109839172A (en) * | 2018-11-27 | 2019-06-04 | 李涛 | A kind of automobile and tractor comprehensive tester revolving speed oil consumption pick up calibration testing stand |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1066461A (en) * | 1992-05-19 | 1992-11-25 | 化学工业部西南化工研究院 | Civil fuel |
CN1101661A (en) * | 1993-10-14 | 1995-04-19 | 吕家候 | Compound gasoline |
KR0134012B1 (en) * | 1995-06-29 | 1998-04-28 | 배순훈 | Warm water circulating pump with sub impeller |
-
1998
- 1998-08-27 CN CN98112948A patent/CN1077133C/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103184083A (en) * | 2011-12-30 | 2013-07-03 | 李述玉 | Oxygen-containing, combustion-supporting, environment-friendly and energy-saving gasoline, and production method thereof |
CN109839172A (en) * | 2018-11-27 | 2019-06-04 | 李涛 | A kind of automobile and tractor comprehensive tester revolving speed oil consumption pick up calibration testing stand |
CN109839172B (en) * | 2018-11-27 | 2024-06-11 | 李涛 | Calibration test bed for rotating speed and oil consumption sensor of automobile and tractor comprehensive tester |
Also Published As
Publication number | Publication date |
---|---|
CN1077133C (en) | 2002-01-02 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN1134530C (en) | Fuel composition | |
CN101121901A (en) | Methanol gasoline for vehicle | |
CN1745162A (en) | Alcohol enhanced alternative fuels | |
CN1518586A (en) | Unleaded low emission gasoline and method for fuelling automotive engine with reduced emissions | |
CN1583977A (en) | Clean alcohol fuel | |
CN1916130A (en) | Clean gasoline and prepartion method | |
CN1923978A (en) | Ethanol modifier and application thereof | |
CN1077133C (en) | Ether-base composite gasoline | |
CN1271180C (en) | Additive for reducing particulate in emissions deriving from combustion of diesel oil and compsns. contg. said additive | |
CN1712501A (en) | Methanol gasoline fuel as cleaning resource | |
CN1324117C (en) | Alcohol gasoline | |
CN105717272A (en) | Test method of gasoline octane numbers | |
CN101302449A (en) | High-clean vast-scale methanol gasoline | |
CN106893613B (en) | Synthetic diesel oil | |
CN100506954C (en) | Fuel oil additive | |
CN1112427C (en) | Environment protection type liquid fuel | |
CN1128863C (en) | Multifunctional fuel-saving agent | |
CN1247750C (en) | Alcohol diesel and its preparing method | |
CN1030205C (en) | Synthetic diesel oil ued for cold area | |
CN101200657A (en) | Combustion engine composite fuel and preparation method thereof | |
CN100516179C (en) | Biological liquid fuel and preparation method thereof | |
CN1580204A (en) | Vehicular methanol petrol | |
CN1800313A (en) | Synthetic vehicular fuel and its preparation method | |
KR102517046B1 (en) | Fuel additive for combustion promotion of liquid fuel and manufacturing process thereof | |
CN108329957B (en) | Vehicle diesel suitable for plateau area and preparation method thereof |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C06 | Publication | ||
PB01 | Publication | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C19 | Lapse of patent right due to non-payment of the annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |