Internal combustion engine with an electronically controlled tumble control valve

What is claimed is: 1. An internal combustion engine comprising: at least one a cylinder; an ignition plug configured to ignite; an air-fuel mixture; an engine rotation speed sensor configured to detect an engine rotation speed; an air-fuel ratio sensor configured to detect an air-fuel ratio in the at least one cylinder; a temperature sensor configured to detect an in-cylinder temperature; an EGR valve configured to control an amount of EGR gas being introduced into the at least one cylinder; a tumble control valve configured to control a gas flow speed around the ignition plug; and an electronic control unit programmed to: in an engine rotation speed range that corresponds to a homogenous lean-burn operation of the internal combustion engine, determine a gas flow speed range based on at least one of the air-fuel ratio in the at least one cylinder, an ignition energy supplied to the ignition plug, an EGR rate, and the in-cylinder temperature, the determined gas flow speed range being narrower when the air-fuel ratio in the at least one cylinder is relatively high, as compared to when the air-fuel ratio in the at least one cylinder is relatively low; and control an opening degree of the tumble control valve such that the gas flow speed around the ignition plug during ignition falls within the determined gas flow speed range. 2. The internal combustion engine according to claim 1 , wherein the determined gas flow speed range when the ignition energy supplied to the ignition plug is relatively low is narrower than the determined gas flow speed range when the ignition energy supplied to the ignition plug is relatively high. 3. The internal combustion engine according to claim 1 , wherein the determined gas flow speed range when the EGR rate is relatively high is narrower than the determined gas flow speed range when the EGR rate is relatively low. 4. The internal combustion engine according to claim 1 , wherein the determined gas flow speed range when the in-cylinder temperature is relatively low is narrower than the determined gas flow speed range when the in-cylinder temperature is relatively high. 5. The internal combustion engine according to claim 1 , wherein the determined gas flow speed range is shrunk such that a variation in the determined gas flow speed range at a relatively high gas flow speed side increases with respect to a variation in the determined gas flow speed range at a relatively low gas flow speed side as the air-fuel ratio in the at least one cylinder increases. 6. The internal combustion engine according to claim 2 , wherein the determined gas flow speed range is shrunk such that a variation in the determined gas flow speed range at a relatively high gas flow speed side increases with respect to a variation in the determined gas flow speed range at a relatively low gas flow speed side as the ignition energy supplied to the ignition plug decreases. 7. The internal combustion engine according to claim 3 , wherein the determined gas flow speed range is shrunk such that a variation in the determined gas flow speed range at a relatively high gas flow speed side increases with respect to a variation in the determined gas flow speed range at a relatively low gas flow speed side as the EGR rate increases. 8. The internal combustion engine according to claim 4 , wherein the determined gas flow speed range is shrunk such that a variation in the determined gas flow speed range at a relatively high gas flow speed side increases with respect to a variation in the determined gas flow speed range at a relatively low gas flow speed side as the in-cylinder temperature decreases. 9. A control method for an internal combustion engine, the internal combustion engine including at least one cylinder, an ignition plug configured to ignite an air-fuel mixture, an engine rotation speed sensor configured to detect an engine rotation speed, an air-fuel ratio sensor configured to detect an air-fuel ratio in the at least one cylinder, a temperature sensor configured to detect an in-cylinder temperature, an EGR valve configured to control an amount of EGR gas being introduced into the at least one cylinder, a tumble control valve configured to control a gas flow speed around the ignition plug, and an electronic control unit, the control method comprising: in an engine rotation speed range that corresponds to a homogenous lean-burn operation of the internal combustion engine, determining, by the electronic control unit, a gas flow speed range based on at least one of the air-fuel ratio in the at least one cylinder, an ignition energy supplied to the ignition plug, an EGR rate, and the in-cylinder temperature, the determined gas flow speed range being narrower when the air-fuel ratio in the at least one cylinder is relatively high, as compared to when the air-fuel ratio in the at least one cylinder is relatively low; and controlling, by the electronic control unit, an opening degree of the tumble control valve such that the gas flow speed around the ignition plug during ignition falls within the determined gas flow speed range.