Response to the trend of the use of hydraulic control devices in Kubota 03-M Series engines offer side power take-off (PTO) in Levels and decrease vibrations transmitted from the valve area, The half-float valve cover and MoS2-coated pistons reduce noise Recess have been optimized to provide lower particulate matter The airflow, combustion chamber, and piston Kubota’s original E-TVCS (Three Vortex Combustion System) hasīeen improved. Position, and single-side serviceability, this engine providesĮxcellent performance and flexibility.
With numerous features such as a built-in solenoid, low fan The cooling water passages between theĬylinder bores features Kubota’s original casting technology asĪ countermeasure against the heat load caused by high powerĭensity, providing both superior endurance and reliable engine That delivers the highest output within the Kubota 03-M Series.īy expanding the bore and stroke, Kubota has increased engineĭisplacement. The Kubota V2403-M-T engine is a high power density engine Tier 4 + EU Stage IIIA emissions regulations. V2403-M turbocharged engines comply with EPA / CARB interim *3: Exclude cooling fan and include aftertreatment unit on engine *2: Exclude cooling fan and exclude aftertreatment unit
Specifications are subject to change without notice.ĭimensions and dry weight are according to Kubota's standard specification.ĭimensions and weight depend on completed specifications.(with aftertreatment unit) mm (in) - Dry weight kg (lb) 201 (443) (without aftertreatment unit) mm (in) 646 x 495 x 725 (25.4 x 19.5 x 28.5) Length x Width x Height *3 Engine model V2403-M-T-E3B Emission regulation EPA/CARB interim Tier 4 + EU Stage IIIA Type Vertical, water cooled 4-cycle diesel engine Cylinders 4 Bore and stroke mm (in) 87.0 x 102.4 (3.43 x 4.031) Displacement L (cu.in) 2.434 (148.5) Aspiration Turbocharged Aftertreatment - Rated output / speed *1 kW (HP) / rpm 44.0 (59.0) / 2700 Maximum torque / speed *1 Nm (lb-ft) / rpm 165.1 (122.0) / 1800 Combustion system Indirect injection Fuel system In-line pump Length x Width x Height *2
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