Internal-combustion engines – Water and hydrocarbon
Reexamination Certificate
1999-12-17
2001-11-06
Wolfe, Willis R. (Department: 3747)
Internal-combustion engines
Water and hydrocarbon
C123S064000
Reexamination Certificate
active
06311651
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a computer controlled, internal combustion engine designed to operate on a six-stroke cycle, wherein water is injected into each of the one or more cylinders during a predetermined portion of the six-stroke cycle depending upon the energy content within the cylinder subsequent to ignition of the conventional air-fuel mixture. The residual heat from the ignited air-fuel mixture serves to convert the injected water into steam on a controlled basis, thereby creating an auxiliary power stroke.
2. Description of the Related Art
It is well known that for over a hundred years the internal combustion (IC) engine was and is the dominating source of power for motorized vehicles. Other than rotary engines, the typical IC engine incorporates a plurality of piston and cylinder assemblies each of which includes a cylinder having a piston reciprocally mounted therein and wherein a combustible fluid, such as an air-fuel gaseous mixture, is forced into the interior of the cylinder, compressed and subsequently ignited. The ignition of the combustible fluid causes a significant expansion of gases within the cylinder, resulting in the piston being forced downwardly within the cylinder and thereby, defining what is commonly known as a “power stroke”. The piston is drivingly connected to a crank shaft which is drivingly connected to the remainder of the drive train associated with the motorized vehicle.
Over the years, numerous attempts have been made to increase the efficiency of IC engines, while at the same time protecting the environment by eliminating or significantly reducing the exhausting of pollutants into the surrounding atmosphere. Attempts to protect the environment, have resulted in significant improvements in exhaust systems, fuel compositions and other operational components of modern IC engines, which sometimes derogatorily affect the efficiency or performance characteristics of such engines. Other attempts to improve the performance of IC engines, without harming the environment, have the included the design of an IC engine which operates on a six-stroke cycle. In such designs, the first four strokes function as a conventional internal combustion engine and include an intake stroke, compression stroke, power stroke and exhaust stroke. The last two strokes of the six-stroke cycle include the injection of water into the combustion chamber for purposes of converting the water to steam by using the residual heat remaining therein. The expansion of the steam is intended to provide an additional power stroke, without additional fuel or combustible fluid being supplied. However, for the most part, such known attempts have failed to provide an internal combustion engine capable of operating on a six-stroke cycle, which is sufficiently efficient and effective for wide spread commercial use.
In order to understand the problems associated with the effective development of an IC engine of the type set forth above, it is important to understand the relationship between water, steam, temperature and pressure, all of which are governed by the laws of thermodynamics, and more specifically, by what are commonly referred to as the “Steam Tables”. Accordingly, and based on these laws, it is well recognized that in a closed container or system, for example, heated water will be maintained in a liquid state at a temperature of 297 degrees Fahrenheit, only as long as the pressure is maintained at a minimum of 50 PSI. However, if the heated water were suddenly to be released from the closed container into atmosphere it would immediately “flash” into steam due to the significant drop in pressure. The reason for this instant conversion into steam is because the water has sufficient latent heat for the steam conversion and no longer has to absorb heat from an exterior source.
Prior attempts to take advantage of the force generated when the water converts to steam in the combustion chamber or cylinder an IC engine have, for the most part, failed due to the fact that the water was injected and allowed to convert or “flash” into steam at the wrong time during the six-stroke cycle. Allowing all of the water injected into a cylinder to simultaneously flash into steam would most probably result in damage to the engine due to the “instant” expansion force created. Rather than developing a power stroke in the engine, such an expansive force would have a tendency to crack the engine block or cause a failure in the seals between the piston and the interior surface of the cylinder. Accordingly, it is believed by the inventor hereof that in order to develop an efficient IC engine incorporating the conversion of injected water into steam, the conversion should be controlled and take place continuously or gradually over the duration of a specific predetermined portion of the six-stroke cycle, rather than instantaneously upon injection of the water into the cylinder.
The failure of previous attempts at water to steam conversion is further evidenced by an explanation of the ignition of a conventional air-fuel mixture in a conventional IC engine. More specifically, after the air-fuel mixture is compressed and ignited, the mixture burns and expands, thereby supplying a continuous force which drives the piston the length of the cylinder resulting in a “power stroke”. This happens because the combustion of the air-fuel mixture occurs on a substantially continuous basis as the piston travels the length of the cylinder during the power stroke. All of the force or power resulting from the ignition of the air-fuel mixture is not released or exerted on the piston at one point in time. Therefore, it is believed by the inventor hereof that the control of the conversion of water into steam should similarly occur on a continuous rather than an instantaneous basis in order for such conversion to produce an effective and efficient additional power stroke in a six-stroke cycle.
Another characteristic common to known attempts to develop a six-stroke cycle IC engine is the premature exhausting of the conventional air-fuel mixture after it has been ignited. It is generally accepted that exhaust gases contain approximately 30% of the energy of the fuel charge due to inherent designs of known or substantially conventional I.C. engines. However, if the exhaust gases can be maintained within the cylinder and properly mixed with a quantity of water being injected, the heat energy still remaining in the previously ignited fuel charge can be utilized to add another power stroke, occurring upon the conversion of water into steam within the cylinder.
Based on the above, there is a significant and recognized need for the development of an improved internal combustion engine which is capable of efficiently operating on a six-stroke cycle which includes the development of an additional power stroke through the injection of water into the cylinder or combustion chamber and the conversion of water into steam. The water to steam conversion should occur on a controlled basis and be at least partially dependent on the energy content within the cylinder, subsequent to ignition of a conventional air-fuel mixture and prior to the ignited air-fuel mixture being exhausted. Any such improved internal combustion engine should preferably have the injection of water and its conversion into steam controlled by a computer assembly or central processor, properly programmed in accordance with the related laws of thermodynamics and the conversion of water to steam in accordance with the “Steam Tables”.
SUMMARY OF THE INVENTION
The present invention is directed towards a computer controlled internal combustion (IC) engine, and its method of operation, designed to operate on a six-stroke cycle and specifically includes the injection of water into the combustion chamber or cylinder of each of a plurality of piston and cylinder assemblies, during a predetermined portion of the six-stroke cycle. More specifically, the quantity and timing of the water injection is controlled and regulated to the ex
Benton Jason A
Malloy & Malloy P.A.
Wolfe Willis R.
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