DE10154455A1 - Dual fuel system for diesel engine has separate tanks, fuel filters and high-pressure pumps feeding injectors or common rail system - Google Patents

Abstract

The first fuel tank (18) contains diesel oil (A) and the second fuel tank (17) contains a biological fuel e.g. rape-seed oil (B). Each tank feeds a fuel line with a filter (10,16) and a high-pressure fuel pump (12,13) supplying fuel to the injectors (14). The fuel system for the biological fuel is surrounded by a heating jacket (15), which may be filled with engine cooling water. A control circuit (11) is connected to the injector system to regulate switchover from the diesel oil to the biological fuel and void a volume (V) of fuel from the injector system when the engine is being shut down. The voided fuel is passed back to the fuel tanks via a 2-way valve.

Description

A number of internal combustion engines can use different fuels operate. In addition to fuel, gasoline can also be used to operate a gasoline engine Use fuel gases. Today natural gas and hydrogen are preferred. Motor vehicles that can run on both gasoline and gas are required plus at least two tanks. The gas tank is high pressure resistant compared to Gasoline tank heavier, which clearly shows the total weight in the case of vehicle operation elevated.

Operation with different fuels is also necessary for the diesel engine known. However, the hydrocarbons used are much longer-chain. It is itself when using alternative fuels to diesel no special z. B. pressure-resistant tanks required to increase the total weight of a vehicle. The use of BioDiesel except for the selection of other oil-resistant plastic components in the fuel system Changes to the current diesel vehicle ahead. The disadvantage of this method is that Production of biodiesel (mostly rapeseed oil as raw material) to adjust the oil properties Esterification must be made. This process requires energy that, in the overall balance sheet, reduce the profitability of this fuel. This is true in addition to vegetable oils also to animal fats, which, in contrast to vegetable oils in any case because of the high viscosity and because of the high stick temperature have to. It is more economical to use vegetable oil as an alternative to diesel oil in one 2-fabric engine, here called DuoDiesel. A well-known two-tank system, one with diesel oil, the other filled with vegetable oil, the fuel can be in front of the engine's injection system be performed. In the case of operation with vegetable oil must reduce the oil viscosity whose temperature can be increased.

Consequently, the renewable fuel (NWT) in the supply line to the engine - e.g. B. simple electrically - be heated. Here's the problem. In the cold season all parts have to the fuel supply including the injectors before starting the engine to about Be preheated to 60 ° C. This overloads the usual vehicle battery so that it is against a large capacity battery needs to be replaced, which in turn is what Total vehicle weight increases. The solution to the problem is the double fuel supply with one each Tank and the use of engine waste heat from the starting phase with conventional Diesel fuel for preheating the NWT using conventional heat exchangers.

The inventive task is the construction of two fuel supplies for the three common diesel injection methods: conventional distributor injection and In-line injection pump, common rail and pump nozzle as well as the design of the control electronics for automatic operation with both fuels. It is first necessary to operate the engine with Diesel fuel to temperature sensor the upper temperature of the cooling water circuit and the Detect warming of the fuel supply for the NWT and the on-board electronics 2-way valve for the flow and that for the return switches.

The most common in diesel engine technology are the in-line injection pumps and the Distributor injection pumps that run synchronously mechanically connected to the engine. The Conversion of the engine to the DuoDiesel requires a second tank, heated fuel lines and a heated fuel filter. The viscosity is comparable to that of diesel fuel NWT at a temperature of ~ 60 ° C. In the period between the start of the engine and When the operating temperature is reached, the coolant flows through it Heat exchanger all components of the NWT supply line to> 60 ° C. To detect the top According to the invention, operating temperatures are thermal sensors with control or thermal switch installed, which eventually switch the 2-way valves from diesel to NWT operation. It is proven that this technology enables the motor to continue to run smoothly with NWT.

Before switching off the DuoDiesel, it must be in good time, especially in the cold season manually switched back to diesel. Timely means until the engine is switched off The NWT should counteract from two-way valve in the pump, the lines and the injection nozzle Diesel fuel must be replaced (flushed) so that the engine can be restarted (cold start) even at outside temperatures below room temperature (RT). To this construction, however, is the volume of the pump, line and injector Systems: In-line injection pump, distributor pump, common rail and pump-line nozzle large. The same applies to the pump-nozzle design principle, in which the volume of pump- Nozzle is small, but due to the design the volume in the supply line is up to Pump injector system large.

The design without manual intervention provides for two independent injection systems; With Supply line, feed pump and tank, one with diesel fuel and one with NWT for the alternative operation. The drive of one or the other distributor injection pump goes over Magnetic couplings with catch. With catch because of the required synchronization. In the starting phase the engine runs on diesel and the on-board electronics control when the operating temperature is detected to NWT. The NWT supply line is preheated as described above.

The conversion of a diesel engine with common rail injection to the DuoDiesel requires this same components and heaters as for the engine with distributor injection pump. However, it is shorter the time for diesel to replace the NWT before stopping the engine Smaller volumes of high pressure pumps, pressure lines and injection nozzles. The 2-way valve must still be switched manually.

The construction according to the invention for the fully automatic operation of the common rail DuoDieselmotors assumes two injection systems, with supply line, feed pump and tank. One or the other high-pressure pump is driven by a magnetic coupling. In In the starting phase, the engine runs on diesel and controls the operating temperature when it is detected On-board electronics to NWT. To avoid a drop in performance in the switchover phase, the high-pressure pump for diesel is first disengaged - both work briefly (sec.) Pumping - when the injection pressure (> 1000 bar) of the NWT system is reached. The time required for the reversal of the common rail electronics is <1 millisecond. With this construction the engine has two injectors per cylinder, one for diesel and one for NWT.

The construction can also be automated with two high-pressure pumps that are on one Injector act. The pressure lines converge directly in front of the injection nozzle. To this Because of the small volume of the injection nozzle, the flushing time is used to displace the NWT by diesel briefly (see above). The inventive construction of a pump nozzle For reasons of space, DuoDieselmotors uses the pump-injector system for both Fuels. Here, too, the engine runs on diesel in the starting phase and, as already shown above, the changeover to NWT takes place when the operating temperature is reached. Until then are supply lines, filters, feed pumps and tanks using conventional heat exchangers Cooling water preheated to over 60 ° C. The switching process is carried out by 2-way valves, controlled from the on-board electronics. The two fuels are fed to the pump nozzle or pump-line-nozzle system in separate feeds so that the Line volume to the nozzle is minimal.

For a trouble-free start of the cold machine, especially in the cold season, must before they are shut down, the NWT is replaced by diesel in the pump-injector system. For this, the 2-way valve is switched over manually. The volume filled with fuel Calculated from the 2-way valve to the injector is special in pump-injector technology small and consequently the time to replace the NWT by diesel is short.

According to the invention, this advantage is used in the on-board electronics program Post-run time registered. This begins at the "Off" time when the 2- Directional control valve on diesel operation and takes around 10 seconds. In this way, the pump Nozzle DuoDiesel can be operated fully automatically.

In Fig. 1, the dual-engine injection system is shown schematically. In the fuel tank 19 , the fuel A, z. B. Diesel and in the tank 18 the fuel B. As is known, the fuel A flows through the filter 10 of the high-pressure pump 12 and further via the high-pressure line to the injection nozzle 13 . The fuel B flows through the filter 15 to the high pressure pump 14 and on to the injector 13 (shown for only one cylinder). The heat exchanger 17 preheats the NWT. The temperature-sensing electronics 11 switch from fuel A to B by switching from pump 12 to pump 14 . After the displacement of the diesel in volume V, the operation takes place exclusively with NWT. If two injection nozzles are selected for each cylinder, it is possible to switch between the two fuels without flushing. If the system according to FIG. 1 is designed, before the engine is switched off, the engine 11 has to be followed by a program step in the electronics 11 to purge the volume V. The recycled fuel reaches the corresponding tank via a 2-way valve 16 .

In Fig. 2 the diagram shows the DuoDiesel with the system pump-nozzle or pump-line-nozzle. The system is characterized by the constructive advantage that the fuels from the tanks 17 and 18 , for. B. Diesel A and NWT B, very close to the pump inlet. That is, the fuel A flows through the filter 10 via a valve 12 controlled by the electronics 11 to the input of the injection system 14 . The same applies to the fuel B, which flows through the filter 16 and the controlled valve 13 and is then also present at the input of the injection system 14 . The only difference is that the fuel B is preheated in the feed line by the heat exchanger 15 . If there is only one injection system per cylinder, as shown in FIG. 2, the volume V must be flushed with fuel A before the engine is switched off in order to restart the engine safely. As already stated above, the recycled fuel passes through the 2-way valve 19 into the corresponding tank.

Claims (7)

1. Construction of the fuel supply for a diesel engine, which enables alternative operation with diesel fuel A and with renewable fuel B directly, i.e. for a DuoDiesel, characterized in that both fuels with similar flow properties are brought up to the injection nozzles. 2. Construction and method according to claim 1, characterized in that in the case of a common rail injection system Fig. 1, two high pressure pumps 12 and 14 are used, one for operation with fuel A, the other for fuel B. 3. Construction and method according to claims 1 and 2, characterized in that two independent injectors are used (2 injectors per Cylinder). 4. Construction and method according to claim 1, characterized in that the two Fuel supply directly to a pump-nozzle or pump-line-nozzle system are introduced to minimize the successive flow of both fuels Line volume. 5. Construction and method according to claim 4, characterized in that two Injection systems pump-nozzle or pump-line-nozzle per cylinder are used. 6. Construction and method according to claim 1 to 4, characterized in that the Dual fuel supply for vehicles (cars / trucks / ships) as well as stationary ones Motors can be used. 7. Construction and method according to one of claims 1 to 6, characterized in that that to set the required viscosity of the fuel at least one Fuel supply line can be heated, a) electrically by heat exchangers in the cooling circuit and / or aa).