Method for controlling an internal combustion engine arrangement

The invention claimed is: 1. A method for controlling an internal combustion engine arrangement, the internal combustion engine arrangement comprising a combustion cylinder housing a reciprocating piston movable between a bottom dead center and a top dead center within the combustion cylinder; an inlet valve operable between an open position and a closed position for controlling a flow of air into the combustion cylinder; a controllable inlet cam shaft connected to the inlet valve, the inlet cam shaft being arranged to, during normal operation of the internal combustion engine arrangement, position the inlet valve from the closed position to the open position when the piston reaches the top dead center, and to position the inlet valve in the closed position at a predetermined crank angle degree before the piston reaches the bottom dead center; and a cam phaser connected to the inlet cam shaft, the cam phaser being arranged for variably controlling valve timing of the inlet valve, the method comprising the steps of: receiving a signal indicative of an operating mode of the internal combustion engine arrangement; determining a required volumetric efficiency of the combustion cylinder for operating the internal combustion engine arrangement in the operating mode; and if the required volumetric efficiency is higher than a volumetric efficiency of the combustion cylinder during the normal operation of the internal combustion engine arrangement: controlling, using the cam phaser connected to the inlet cam shaft, the inlet valve to be arranged in the open position at a number of crank angle degrees after the piston has left the top dead center, the number of crank angle degrees after the piston has left the top dead center corresponds to the predetermined crank angle degree from the bottom dead center when the inlet valve is closed during the normal operation of the internal combustion engine arrangement, and maintaining the inlet valve in the open position until the piston reaches the bottom dead center. 2. The method according to claim 1 , wherein the internal combustion engine arrangement is operated in steady state during the normal operation thereof. 3. The method according to claim 1 , wherein the internal combustion engine arrangement further comprises an outlet valve operable between an open position and a closed position for controlling a flow of combustion gases out from the combustion cylinder, wherein the outlet valve is arranged in the open position after a combustion phase when the piston moves from the bottom dead center to the top dead center during the normal operation of the internal combustion engine arrangement as well as when the required volumetric efficiency is higher than the volumetric efficiency of the normal operation of the internal combustion engine arrangement. 4. The method according to claim 1 , further comprising the step of: determining that the required volumetric efficiency is higher in comparison to the normal operation of the internal combustion engine arrangement if the internal combustion engine arrangement demands for an increased engine power at the operating mode. 5. The method according to claim 1 , further comprising the step of: determining that the required volumetric efficiency is higher in comparison to the normal operation of the internal combustion engine arrangement if the internal combustion engine arrangement is operated in a transient state at the operating mode. 6. The method according to claim 1 , further comprising the step of: determining that the required volumetric efficiency is higher in comparison to the normal operation of the internal combustion engine arrangement if the internal combustion engine arrangement is operated in an engine start-up state at the operating mode. 7. The method according to claim 1 , wherein the step of controlling, using the cam phaser connected to the inlet cam shaft to open the inlet valve at the number of crank angle degrees after the piston has left the top dead center comprises the step of: controlling the cam phaser to rotate the inlet cam shaft for maintaining the inlet valve in an open state until the piston reaches the bottom dead center when the required volumetric efficiency is higher than the volumetric efficiency of the combustion cylinder during the normal operation of the internal combustion engine arrangement. 8. The method according to claim 1 , further comprising the step of: controlling the inlet cam shaft to arrange the inlet valve in a fully open position at a predetermined crank angle degree from the top dead center of the piston. 9. The method according to claim 1 , further comprising the step of: controlling the inlet cam shaft to gradually arrange the inlet valve from the closed position to the open position when the piston moves from the top dead center towards the bottom dead center when the internal combustion engine arrangement is operated in the operating mode. 10. An internal combustion engine arrangement comprising a combustion cylinder housing a reciprocating piston movable between a bottom dead center and a top dead center within the combustion cylinder; an inlet valve operable between an open and a closed position for controlling a flow of air into the combustion cylinder; a controllable inlet cam shaft connected to the inlet valve, the inlet cam shaft being arranged to, during normal operation of the internal combustion engine arrangement, position the inlet valve from the closed position to the open position when the piston reaches the top dead center, and to position the inlet valve in the closed position at a predetermined crank angle degree before the piston reaches the bottom dead center; and a cam phaser connected to the inlet cam shaft, the cam phaser being arranged for variably controlling valve timing of the inlet valve, wherein the internal combustion engine arrangement further comprises a control unit configured to: receive a signal indicative of an operating mode of the internal combustion engine arrangement; determine a required volumetric efficiency of the combustion cylinder for operating the internal combustion engine arrangement in the operating mode; and if the required volumetric efficiency is higher than a volumetric efficiency of the combustion cylinder during the normal operation of the internal combustion engine arrangement, the control unit is further configured to: control the cam phaser connected to the inlet cam shaft to open the inlet valve at a number of crank angle degrees after the top dead center, the number of crank angle degrees after the piston has left the top dead center corresponds to the predetermined crank angle degree from the bottom dead center when the inlet valve is closed during the normal operation of the internal combustion engine arrangement, and maintain the inlet valve in the open position until the piston reaches the bottom dead center. 11. The internal combustion engine arrangement according to claim 10 , wherein the cam phaser is arranged to control the inlet cam shaft to position the inlet valve in the closed position at a distance of at least 20 crank angle degrees before the piston has reached the bottom dead center during the normal operation of the internal combustion engine arrangement. 12. The internal combustion engine arrangement according to claim 10 , further comprising an outlet valve for controllably delivery of combustion gases generated in the combustion cylinder out from the combustion cylinder; and an outlet cam shaft connected to the outlet valve for controlling the outlet valve between an open position and a closed position. 13. A vehicle comprising the internal combust