Inlet system with an inboard drain assembly for a rotorcraft engine

What is claimed is: 1. An aircraft comprising: an engine; and a drain assembly, comprising: an inlet plenum assembly to provide air to the engine; a drain tube extending between a first tube end and a second tube end, the first tube end fluidly attached to the inlet plenum assembly; and a flapper assembly positioned along the second tube end and comprising a flapper door, the flapper door configured to allow fluid to drain from the drain assembly to an engine compartment of the engine when pressure produced by the fluid in the drain tube overcomes engine suction of the engine, the flapper door being further configured to prevent fluid, gases, or flames from flowing into the drain assembly through the second tube end of the drain tube. 2. The aircraft of claim 1 , wherein the flapper door is movable between an open position and a closed position, wherein the flapper door allows fluid to drain from the drain tube in the open position and the flapper door automatically moves to the closed position when fluid is not draining from the drain tube. 3. The aircraft of claim 2 , wherein, in the closed position, the flapper door seals against an angled flapper seat and prevents fluid from moving between the drain tube and the engine compartment through the second tube end of the drain tube. 4. The aircraft of claim 3 , wherein, in the closed position, the angled flapper seat positions the flapper door at an angle relative to a vertical axis that extends along a vertical portion of the drain tube. 5. The aircraft of claim 3 , wherein the flapper assembly comprises a base attached to the second tube end, the flapper assembly hingeably attached to the base, wherein the base defines the angled flapper seat. 6. The aircraft of claim 3 , wherein the second tube end defines the angled flapper seat. 7. The aircraft of claim 1 , wherein the drain tube comprises a substantially vertical portion and a substantially horizontal portion that extend between the first tube end and the second tube end. 8. The aircraft of claim 1 , further comprising the engine compartment, the engine compartment defining a firewall for the engine, the firewall having a floor, the floor defining at least one drain, the drain tube and the flapper assembly positioned within the engine compartment and suspended above the at least one drain by the inlet plenum assembly. 9. A aircraft comprising: an engine; and a drain assembly, comprising: an inlet plenum assembly to provide air to the engine; a drain fitting fluidly attached to the inlet plenum assembly; a drain tube extending between a first tube end and a second tube end, the first tube end configured to fluidly attach to the drain fitting, wherein an inner diameter of the drain fitting is smaller than an inner diameter of the drain tube; and a flapper assembly positioned along the second tube end and comprising a flapper door configured to allow fluid to drain from the drain tube when pressure produced by the fluid in the drain tube overcomes engine suction of the engine. 10. The aircraft of claim 9 , wherein the drain fitting is positioned at least partially within the drain tube. 11. The aircraft of claim 9 , wherein the flapper door is configured to inhibit fluid from flowing into the drain tube through the second tube end of the drain tube. 12. The aircraft of claim 11 , wherein the flapper door is movable between an open position and a closed position, wherein the flapper door allows fluid to drain from the drain tube in the open position and the flapper door automatically moves to the closed position when fluid is not draining from the drain tube. 13. The aircraft of claim 12 , wherein, in the closed position, the flapper door seals against an angled flapper seat and prevents fluid from moving between the drain tube and an engine compartment that the drain tube is positioned within through the second tube end of the drain tube. 14. The aircraft of claim 9 , wherein the drain tube comprises a substantially vertical portion and a substantially horizontal portion that extend between the first tube end and the second tube end. 15. A method of draining fluid from an inlet plenum assembly of an engine system, the method comprising: positioning a drain assembly within an engine compartment, wherein the drain assembly comprises a drain tube and a flapper assembly, wherein the drain tube extends between a first tube end and a second tube end, wherein the flapper assembly is positioned along the second tube end and comprises a flapper door; and fluidly attaching the first tube end of the drain tube to the inlet plenum assembly that is fluidly coupled to an engine such that fluid can drain from within the inlet plenum assembly, through the drain assembly, into the engine compartment, and through at least one floor drain defined by a floor of the engine compartment when pressure produced by the fluid in the drain tube overcomes engine suction. 16. The method of claim 15 , wherein the fluid drains directly from the drain assembly onto the floor of the engine compartment to flow to the floor drain. 17. The method of claim 15 , wherein the drain assembly is positioned entirely within the engine compartment. 18. The method of claim 15 , further comprising preventing fluid from flowing into the drain tube through the second tube end of the drain tube with the flapper door. 19. The method of claim 18 , further comprising moving the flapper door between an open position and a closed position, wherein the flapper door allows fluid to drain from the drain tube in the open position, further comprising automatically moving the flapper door to the closed position when fluid is not draining from the drain tube. 20. The method of claim 19 , further comprising sealing the flapper door against an angled flapper seat and preventing fluid from moving between the drain tube and the engine compartment through the second tube end of the drain tube in the closed position. 21. The method of claim 15 , further comprising fluidly attaching the first tube end to a drain fitting and fluidly attaching the drain fitting to the inlet plenum assembly, wherein an inner diameter of the drain fitting is smaller than an inner diameter of the drain tube. 22. The method of claim 21 , wherein, the ratio between the inner diameter of the drain fitting and the inner diameter of the drain tube, a weight of the flapper door, and an angle of an angled flapper seat that the flapper door is configured to seal against are configured such that when liquid is present in the drain tube, the flapper door moves to an open position, and the liquid overcomes engine suction and drains through the second tube end of the drain tube, and when liquid is not present in the drain tube, the flapper door will remain in a closed position for both level and pitch angle flight attitudes.