DE10142778A1 - Supplying solar electricity to a vehicle, by locating solar cells on the vehicle and connecting them to a chargeable accumulator via a regulator - Google Patents

Abstract

The process for supplying a vehicle with solar electricity, comprises locating solar cells on the vehicle roof, bonnet, boot lid etc., and connecting them to a regulator and a chargeable accumulator. The electrical energy is used to form hydrogen and oxygen from water. The oxygen is used during a cold start phase. The hydrogen is used in the catalyst as reducing agent for emitted pollutants.

Description

introduction

Motor vehicles are mobile machines that are used for locomotion and for operation of their elements need energy. This energy comes from the fuel that releases the chemically stored energy through combustion. Basically taken one can say that motor vehicles are powered by bioenergy since fuel is nothing other than that made over millions of years Living organism created biomass.

However, this energy is no longer available if there is no fuel is burned in the engine. The breaks between the individual operating phases of a Motor vehicle can not be used energetically.

In the present description, a method is shown that the generation and use of solar energy while the engine is at a standstill, i.e. in the Service breaks of the motor vehicle allows.

State of the art

The use of solar technology extends across different areas such as For example, solar architecture or solar urban planning.

In the field of electric motor vehicles, there is the possibility To provide the drive energy, rechargeable nickel-cadmium batteries carry. These batteries can be started within two hours so-called solar filling stations with the help of photovoltaically generated solar power recharge. According to SOLAR + E-MOBIL 96/97, the Lightweight construction of the vehicle ensures exhaust-free movement under exclusive Use of regenerative energy.

With self-sufficient solar vehicles, the energy is used to operate the electrical Drive motor exclusively with the solar current of the on-board solar modules covered.

A combination of internal combustion engine and solar electric drive lies with the so-called hybrid vehicles. Generally there is a difference between parallel and serial Differentiated hybrid drives. With parallel hybrid drives, the vehicle can either only with an internal combustion engine, only electrically or with both drives drive. Examples are the Audi duo or the Golf Hybrid from the VAG group. With serial drive, the vehicle always runs electrically. But there is Possibility of using a small internal combustion engine to drive a generator that Provides power for drive or battery charging. Examples are the Irmscher Selectra on Basis of the Opel Corsa, the Volvo ECT with a gas turbine or the Neoplan hybrid Bus with flywheel storage and diesel engine.

Description of the procedure

One or more solar cells ( 1 ) are attached to the straight surfaces of the motor vehicle ( 2 ) and the solar energy is passed on in solar cables ( 3 ). The charge controller ( 4 ) and accumulator ( 5 ) belonging to the system are integrated into the bumper in the motor vehicle, see FIG. Fig. 1.

applications 1. Splitting water

Oxygen and hydrogen split from water could be used to burn the engine efficiency. Water ( 7 ) is carried in a container ( 6 ) which is split into hydrogen (+) and oxygen (-) by means of electrical energy by hydrolysis. Oxygen ( 8 ) can be added to the combustion air in very cold weather or generally during the starting process. If hydrogen ( 9 ) is metered into the catalyst ( 10 ), this can support the breakdown of pollutants, s. Fig. 2.

2. Supporting the denitrification process in diesel vehicles

To remove nitrogen from the exhaust gas ( 11 ) in the diesel engine ( 12 ), measures must be taken using selective catalytic reduction (SCR). The ammonia (NH ₃ ) ( 13 ) necessary for denitrification can be produced from liquid or solid substances, such as dilute urea ( 14 ) or carbamate ( 15 ) by the solar power ( 16 ) during the breaks in the motor vehicle. The released gas must be stored in special gas containers ( 17 ) until it is used, see Fig. 3.

3. Supply of OBM devices

Monitoring the quality of the combustion process with regard to the completeness and completeness of the combustion and exhaust gas aftertreatment for the reduction of dangerous and emitting pollutants requires the use of an on-board measuring device (OBM) ( 18 ) in motor vehicles, see. Fig. 4. These devices must also perform a short calibration phase ( 19 ) during the breaks in operation of the motor vehicles. This process is activated by a clock on the device's own microcontroller. The system draws air from the environment and measures the zero gas, ie air concentration, and thus sets the zero line. It is important when operating the OBM system that it does not put additional stress on the vehicle accumulator.

4. Operation of safety-related systems

The reporting of the local coordinates ( 20 ) of the device to a control center ( 21 ) is becoming increasingly important from a safety point of view. An anti-theft device can and should give the necessary message ( 22 ) even during the rest phase. It is often required that such systems are not connected to the power supply of the motor vehicle for guarantee reasons. Even the loosening of the power supply lines on the accumulator can lead to a general error message in an OBD motor vehicle.

For the above reasons, it is advantageous to install solar cells on motor vehicles, which guarantee a completely self-sufficient power supply and trouble-free operation without violating the guarantee. FIG directory Fig. 1: installation of solar cells on the motor vehicle with energy storage in the extra-accumulator
1 solar cell
2 motor vehicle
3 solar cables
4 charge controllers
5 accumulator
Fig. 2: hydrolysis with energy from solar power
6 container
7 water
8 Supply of oxygen to the combustion air
9 Supply of hydrogen to the catalyst
10 catalyst
Fig. 3: Support the denitrification process in the diesel motor vehicle
11 exhaust gas
12 diesel engine
13 ammonia NH ₃
14 dilute urea
15 carbamate
16 solar power
17 gas tanks
Fig. 4: Solar power supply for calibration of an OBM measuring device during the resting phase of the motor vehicle
18 OBM measuring device
19 calibration phase
Fig. 5: Operation of safety-relevant systems in rest phases
20 coordinates
21 headquarters
22 Data transmission via solar power

Claims (7)

1. Method for self-sufficient, fuel-independent supply of the motor vehicle by solar power, characterized in that solar cells are accommodated in the appropriate places, for example on the roof, on the engine or trunk hood, on trailers or trucks on the straight sides and on the roof surfaces of the commercial vehicle , can be connected to the charge controller and the rechargeable battery using a solar cable. 2. Process for self-sufficient, fuel-independent supply of the motor vehicle by solar power according to claim 1, characterized in that the electrical energy for the hydrolytic generation of hydrogen and Oxygen from water can be used, taking oxygen during the Cold start phases as combustion-promoting and hydrogen in the catalytic converter as Reducing agent from emitted pollutants is used. 3. A method for self-sufficient, fuel-independent supply of the motor vehicle by solar power according to claim 1, characterized in that the ammonia (NH ₃ ) necessary for the denitrification of diesel exhaust gases in the selective, catalytic reduction (SCR) from dilute urea or from carbamate in the Breaks in operation of the motor vehicle produced by solar power and stored in gas containers ready to start. 4. Process for self-sufficient, fuel-independent supply of the motor vehicle by solar power according to one of the preceding claims, thereby characterized in that the solar power stored in the accumulator for Operation of the OBM (on-board measurement) system even during the Rest phases of the motor vehicle can be used outside the operating phases can. 5. Process for self-sufficient, fuel-independent supply of the motor vehicle by solar power according to claim 4, characterized in that the OBM Device performs an adjustment in the zero phases by means of solar power, so that the Drift limited and the coordination of the measurement and the reference signal is made to start the vehicle without delay and not being able to measure at the expense of the vehicle's own battery. 6. Process for self-sufficient, fuel-independent supply of the motor vehicle by solar power according to one of the preceding claims, thereby characterized that several security-relevant systems, so the Position detectors and theft protection with solar power also in the Breaks, can be operated outside the engine runtime. 7. Process for self-sufficient, fuel-independent supply of the motor vehicle by solar power according to one of the preceding claims, thereby characterized in that during the operating phase of the motor vehicle Data obtained can also be transmitted by radio to a central office, where it is be evaluated technologically and in terms of safety.