Engine assembly

What is claimed is: 1. An engine assembly comprising: a crankcase comprising a crankcase chamber formed at least partially within a crankcase inner surface; a crankshaft rotatably mounted in the crankcase chamber, wherein during rotation the crankshaft is configured to drive a crankcase fluid flow in the crankcase chamber; a lubrication system comprising a lubricant drain for a drain fluid flow therethrough, the lubricant drain extending through the crankcase to a drain aperture at the crankcase chamber; and a turbocharger, wherein the lubrication system distributes lubricant to the turbocharger and the lubricant drain is configured to direct lubricant from the turbocharger to the crankcase chamber; a fluid guide arrangement mounted to the crankcase, extending into the crankcase chamber from the crankcase inner surface and located adjacent or in proximity to the drain aperture, the fluid guide arrangement being configured for guiding crankcase fluid flow away from the drain aperture and for reducing the pressure of the crankcase fluid flow past the drain aperture, such that drain fluid flows from the lubricant drain; the fluid guide arrangement includes a first fluid guide wall located at least partially over and extending upstream from the drain aperture, the first fluid guide wall extends towards the crankshaft and comprises a first wall surface being concave and configured to direct the crankcase fluid flow away from the drain aperture and towards the crankshaft. 2. The engine assembly as claimed in claim 1 , wherein the first fluid guide wall extends at least partially over the drain aperture such that drain fluid flow exiting the drain aperture is at least partially directed onto the first fluid guide wall and the first fluid guide wall is configured to change the direction of the drain fluid flow exiting the lubricant drain and direct the drain fluid flow into the crankcase fluid flow. 3. The engine assembly as claimed in claim 1 wherein the fluid guide arrangement is configured to guide crankcase fluid flow past the drain aperture and induce a negative pressure in the crankcase chamber adjacent to the drain aperture relative to a pressure in the lubricant drain. 4. The engine assembly as claimed in claim 3 wherein the fluid guide arrangement is arranged to form a constriction between the fluid guide arrangement and the crankshaft for reducing the pressure of the crankcase fluid flow passing therebetween. 5. The engine assembly as claimed in claim 4 wherein the fluid guide arrangement comprises a throat and/or convergent section upstream of the drain aperture and/or comprises a divergent section, the drain aperture being located in or upstream of the divergent section. 6. The engine assembly as claimed in claim 1 , wherein the first fluid guide wall is closer to the crankshaft than a portion of the crankcase downstream of the drain aperture. 7. The engine assembly as claimed in claim 1 , wherein the first fluid guide wall extends from a first wall proximal end adjacent the drain aperture to a first wall distal end and the separation between the first fluid guide wall and crankshaft increases from the first wall proximal end to the first wall distal end. 8. The engine assembly as claimed in claim 1 , wherein the first fluid guide wall extends from a first wall proximal end adjacent the drain aperture to a first wall distal end and the separation between the first fluid guide wall and crankshaft continuously increases from the first wall distal end to the first wall proximal end. 9. The engine assembly as claimed in claim 1 wherein the fluid guide arrangement comprises a second fluid guide wall extending from a second wall proximal end adjacent the drain aperture to a second wall distal end and the separation between the second fluid guide wall and crankshaft continuously increases from the first second wall proximal end to the first second wall distal end. 10. The engine assembly as claimed in claim 1 wherein the fluid guide arrangement is formed integrally with the crankcase and/or comprises at least one plate attached to the crankcase. 11. A method of operating the engine assembly comprising: a crankcase comprising a crankcase chamber formed at least partially within a crankcase inner surface of the crankcase; a crankshaft rotatably mounted in the crankcase chamber, wherein during rotation the crankshaft is configured to drive a crankcase fluid flow in the crankcase chamber; a lubrication system comprising a lubricant drain for a drain fluid flow therethrough, the lubricant drain extending through the crankcase to a drain aperture at the crankcase chamber; and a turbocharger, wherein the lubrication system distributes lubricant to the turbocharger and the lubricant drain is configured to direct lubricant from the turbocharger to the crankcase chamber; a fluid guide arrangement mounted to the crankcase, extending into the crankcase chamber from the crankcase inner surface and located adjacent or in proximity to the drain aperture, the fluid guide arrangement being configured for guiding crankcase fluid flow away from the drain aperture and/or for reducing the pressure of the crankcase fluid flow past the drain aperture, such that drain fluid flows from the lubricant drain, wherein the method comprises: rotating the crankshaft and thereby drive the crankcase fluid flow in the crankcase chamber; and operating the lubrication system such that drain fluid flow passes through the lubricant drain to the drain aperture, wherein the fluid guide arrangement guides the crankcase fluid flow away from the drain aperture and/or reduces the pressure of the crankcase fluid flow past the drain aperture, such that the drain fluid flows from the lubricant drain; the fluid guide arrangement includes a first fluid guide wall located at least partially over and extending upstream from the drain aperture, the first fluid guide wall extends towards the crankshaft and comprises a first wall surface being concave and configured to direct the crankcase fluid flow away from the drain aperture and towards the crankshaft. 12. An engine assembly comprising: a crankcase comprising a crankcase chamber formed at least partially within a crankcase inner surface; a crankshaft rotatably mounted in the crankcase chamber, wherein during rotation the crankshaft is configured to drive a crankcase fluid flow in the crankcase chamber; a lubrication system comprising a lubricant drain for a drain fluid flow therethrough, the lubricant drain extending through the crankcase to a drain aperture at the crankcase chamber; and a fluid guide arrangement mounted to the crankcase, extending into the crankcase chamber from the crankcase inner surface and located adjacent or in proximity to the drain aperture, the fluid guide arrangement being configured for guiding crankcase fluid flow away from the drain aperture and for reducing the pressure of the crankcase fluid flow past the drain aperture, such that drain fluid flows from the lubricant drain; wherein the fluid guide arrangement includes a first fluid guide wall and a second fluid guide wall; the first fluid guide wall being mounted to the crankcase in the crankcase chamber and located at least partially over and extending upstream from the drain aperture and further extends from a first wall proximal end adjacent the drain aperture to a first wall distal end and the separation between the first fluid guide wall and crankshaft continuously increases from the first wall distal end to the first wall proximal end; and the second fluid guide wall extending from a second wall proximal end adjacent the drain aperture to a second wall distal end and the separation between the second fluid guide wall and