WO2007118435A1 - Combustion engine with direct water injection - Google Patents

Abstract

The invention concerns an enhancement to a conventional piston combustion engine using a further direct injection system for water that has already been heated by the engine exhaust. Owing to the water vaporizing directly in the combustion chamber, it is possible to use additional operating power that would otherwise be removed as waste heat.

Description

Internal combustion engine with direct water injection:

The invention relates to an internal combustion engine (Otto, Diesel, Wankel, etc.) which is equipped with an additional injection system for water or similar liquid.

In conventional internal combustion engines, the heat released during combustion is dissipated via the motor housing and released into the environment largely unused by air or water cooling.

The technique of direct injection into the combustion chamber is currently used exclusively for the fuel to be burned.

In steam-powered engines, the necessary heat is generated for evaporation outside the actual drive space and the steam is supplied to the drive via valves. In internal combustion engines, a gas is supplied in different cycles, ignited the gas and the exhaust gas out of the combustion chamber. Here, the gas may already contain the fuel, or this is supplied separately via an injection system.

The invention relates to the injection of water into the combustion chamber of an OTTO, diesel, 2-stroke, 4-stroke or Wankel engine to absorb the heat generated during the previous combustion and use of the resulting vapor pressure to drive the engine. The water is heated by the engine exhaust gas in a pressure vessel prior to injection.

An engine according to the invention has the following various advantages. The heat generated during combustion is used as drive energy and reduces fuel consumption. The engine is cooled by the injected and evaporating water. Explanation of the invention with reference to a 4-stroke engine:

The engine has all the elements of a conventional engine. In addition, it contains a water tank, a charge pump, which pumps the water from the tank into the exhaust gas heat exchanger, the exhaust gas / water heat exchanger and the injection pump of the water circuit. Optionally, a temperature sensor for controlling the switching water operation / fuel operation can be provided.

The four strokes of the explosion engine (suction, compression, expansion after ignition and expressing the exhaust gas) remain unchanged; Regardless of the type of ignition (self-or foreign) and regardless of the type of fuel injection (carburetor, injection system, direct injection).

However, the continuous sequence of these cycles with regular fuel injection and ignition is interrupted and replaced by the following process.

Instead of fuel injection and ignition, the injection of water and the evaporation of the liquid occurs, the piston being driven by the vapor pressure.

The number of replaced cycles, amount of water and injection time of the liquid introduced results from the engine and water temperature. Optionally, the water injection remains off and the engine is operated to reach the necessary temperature as a pure internal combustion engine.

Referring to Figure 1, the schematic structure for a gasoline direct injection engine is shown. The structure for the injection of water is the same for diesel, carburetor or Wankel engines, only the illustrated elements of the classic engine change. The water is pumped out of the tank into the exhaust gas heat exchanger because there is a much higher pressure and overheating there. The injection pump controls the time and amount of water through a valve.

Claims

claims:

1. piston internal combustion engines characterized in that they have an additional direct injection of water.

2. Piston internal combustion engines characterized in that they have an additional direct injection of water with exhaust gas / water heat exchanger.