Normally open gas valve

What is claimed is: 1. A valve, comprising: a valve body having an inlet and an outlet; a valve plug configured to engage a valve plug seat in a closed position such that fluid is unable to flow from the inlet to the outlet in the closed position; wherein the valve plug gradually disengages the valve plug seat when moving from the closed position to an open position; wherein the valve plug maintains at least partial engagement with the valve plug seat when in the open position; a solenoid having an armature; a lever arm operably coupled to the armature at a first end and to the valve plug at a second end; and a fulcrum bar about which the lever arm rotates; and wherein energization of the solenoid causes a first force on the first end of the lever arm and a second force on the second end of the lever arm, the second force being in the opposite direction as the first force. 2. The valve of claim 1 , wherein the lever arm is comprised of a long portion between the fulcrum bar and the first end of the lever arm and a short portion between the fulcrum bar and the second end of the lever arm and wherein the long portion is at least twice the length of the short portion. 3. The valve of claim 2 , wherein the second force is at least twice the magnitude of the first force. 4. A valve, comprising: a valve body having an inlet and an outlet; a valve plug configured to engage a valve plug seat in a closed position such that fluid is unable to flow from the inlet to the outlet in the closed position; wherein the valve plug gradually disengages the valve plug seat when moving from the closed position to an open position; wherein the valve plug maintains at least partial engagement with the valve plug seat when in the open position; and wherein the valve plug is made of a reversibly deformable material such that the valve plug bends when moving between the closed position and the open position. 5. The valve of claim 4 , wherein fluid pressure on the inlet side of the valve body urges the valve plug into engagement with the valve plug seat. 6. A method of opening a valve, wherein the valve comprises a valve plug configured to engage a valve plug seat when the valve is in a closed position, the method comprising the steps of: applying a force to a first end of the valve plug; gradually lifting the valve plug from the valve plug seat such that the first end of the valve plug increases in separation from the valve plug seat more than a second end of the valve plug until the valve plug reaches an open position; maintaining at least partial engagement of the second end of the valve plug with the valve plug seat in the open position; wherein the valve further comprises a solenoid having an armature, a lever arm, and a fulcrum, wherein the armature is operably coupled to a first end of the lever arm and the valve plug is operably coupled to a second end of a lever arm, and wherein the step of applying a force to a first end of the valve plug further comprises: energizing the solenoid to move the armature and the first end of the lever arm in a first direction; rotating the lever arm about the fulcrum; and opening the valve by moving the second end of the lever arm in a second direction opposite to the first direction. 7. The method of claim 6 , further comprising generating a first force at the first end of the lever arm and generating a second force at the second end of the lever arm, wherein the second force is at least twice the first force. 8. The method of claim 6 , further comprising the steps of: deenergizing the solenoid to cause a retraction of the armature; rotating the lever arm about the fulcrum oppositely to the first rotating step; seating the valve plug on the valve plug seat. 9. A valve, comprising: a valve body having an inlet and an outlet; a valve plug configured to engage a valve plug seat in a closed position such that fluid is unable to flow from the inlet to the outlet in the closed position; wherein a top surface of the valve plug defines a plane in the closed position; wherein a first end of the top surface bends out of the plane as the valve plug transitions into an open position wherein a second end of the valve plug remains in at least partial engagement with the valve plug seat in the open position; a solenoid having an armature; a lever arm operably coupled to the armature at a first end and to the valve plug at a second end; and a fulcrum bar about which the lever arm rotates; and wherein energization of the solenoid causes a first force on the first end of the lever arm and a second force on the second end of the lever arm, the second force being in the opposite direction as the first force. 10. The valve of claim 9 , wherein the lever arm is comprised of a long portion between the fulcrum and the first end of the lever arm and a short portion between the fulcrum and the second end of the lever arm and wherein the long portion is at least twice the length of the short portion. 11. The valve of claim 10 , wherein the second force is at least twice the magnitude of the first force. 12. A valve, comprising: a valve body having an inlet and an outlet; a valve plug configured to engage a valve plug seat in a closed position such that fluid is unable to flow from the inlet to the outlet in the closed position, the valve plug seat being arranged on a first axis; a solenoid having an armature; a lever arm having a first end and a second end, the lever arm being operably coupled to the armature at the first end and to the valve plug at the second end; and a fulcrum bar about which the lever arm rotates wherein actuation of the solenoid causes the armature to move the first end of the lever arm in a first direction such that the lever arm rotates about the fulcrum bar and the second end of the lever arm moves in a second direction opposite to the first direction; and wherein the rotation of the lever arm applies a force to the valve plug that deviates from an initial direction parallel to the first direction; and wherein the valve plug is made of a reversibly deformable material such that the valve plug bends when moving between the closed position and the open position.