Method of evaluating a soot quantity accumulated in a selective catalytic reduction washcoated particulate filter (sdpf)

1 - 12 . (canceled) 13 . A method of evaluating a soot quantity accumulated in a Selective Catalytic Reduction wash-coated particulate filter of an internal combustion engine having an exhaust gas aftertreatment system including a urea injector, the method comprising: determining an urea quantity value to be injected by the urea injector; determining a NO x quantity value at an inlet of the selective catalytic reduction wash-coated particulate filter; determining a temperature value at the inlet of the selective catalytic reduction wash-coated particulate filter; determining a mass flow value of an exhaust gas in the aftertreatment system; computing a correction value of a soot quantity using a map correlating the urea quantity value, the NO x quantity value, the temperature value and the mass flow value; and correcting an estimated value of the soot quantity using the correction value in order to obtain an evaluated value of the soot quantity. 14 . The method according to claim 13 , wherein subdividing the map in a first sub-map correlating the urea quantity value and the NO x quantity value to an intermediate value and a second sub-map correlating the intermediate value, the temperature value and the mass flow value to the correction value. 15 . The method according to claim 13 , further comprising determining the estimated value on the basis of a pressure difference between the inlet and an outlet of the selective catalytic reduction wash-coated particulate filter. 16 . The method according to claim 13 , further comprising determining the urea quantity value in an electronic control unit. 17 . The method according to claim 13 , further comprising determining the NO x quantity value at the inlet of the selective catalytic reduction wash-coated particulate filter using a NO x quantity sensor located upstream of the selective catalytic reduction wash-coated particulate filter. 18 . The method according to claim 13 , further comprising determining the temperature value at the inlet of the selective catalytic reduction wash-coated particulate filter using a temperature sensor located upstream of the selective catalytic reduction wash-coated particulate filter. 19 . The method according to claim 13 , further comprising determining the mass flow value (EMF) using a mass flow sensor located in the exhaust gas aftertreatment system. 20 . A computer program comprising a computer-code stored in a non-transitory computer-readable media for performing the method according to claim 13 . 21 . A control apparatus for an internal combustion engine, comprising an electronic control unit, a non-transitory computer-readable data carrier associated to the electronic control unit and a computer program according to claim 20 stored in the data carrier. 22 . An apparatus for evaluating a soot quantity accumulated in a selective catalytic reduction wash-coated particulate filter of an internal combustion engine having an exhaust gas aftertreatment system including a urea injector, wherein the apparatus comprises a electronic control unit for controlling the urea injector and configured to: determine a urea quantity value to be injected by the urea injector; determine a NO x quantity value at an inlet of the selective catalytic reduction wash-coated particulate filter; determine a temperature value at the inlet of the selective catalytic reduction wash-coated particulate filter; determine a mass flow value of an exhaust gas; and determine a correction value of the soot quantity using a map correlating the urea quantity value, the NOx quantity value, the temperature value and the exhaust mass flow value, correcting an estimated value of the soot quantity using the correction value in order to obtain an evaluated value of the soot quantity. 23 . An internal combustion engine comprising an exhaust gas aftertreatment system including a urea injector, and the electronic control unit according to claim 22 for controlling the urea injector.