Combustion system estimation device and control device

The invention claimed is: 1. An estimation device applicable to a combustion system having an internal combustion engine, comprising: a mixing acquisition unit to acquire a mixing ratio of various components contained in a fuel used for combustion in the internal combustion engine; a combustion amount estimation unit to estimate a combustion amount of the fuel caused by a post-combustion generated by injecting the fuel into a combustion chamber of the internal combustion engine by post injection, based on the mixing ratio acquired by the mixing acquisition unit; a region estimation unit to estimate a combustion region of the post combustion in the combustion chamber based on the mixing ratio; and a timing estimation unit to estimate an ignition timing, at which ignition occurs in the combustion chamber with the post injection, based on the mixing ratio. 2. The estimation device for the combustion system according to claim 1 , further comprising at least one of: an injection amount estimation unit to estimate the injection amount by the post injection based on the mixing ratio; a heat generation amount estimation unit to estimate the amount of heat generation of fuel in the post combustion based on the mixing ratio; a penetration force estimation unit to estimate a penetration force of fuel by the post injection based on the mixing ratio; a diffusion estimation unit to estimate a diffusion state of fuel by the post injection based on the mixing ratio; and an ignition delay estimation unit to estimate an ignition delay characteristic as ease of ignition of fuel based on the mixing ratio, wherein the combustion amount estimation unit, the region estimation unit, and the timing estimation unit are to estimate the combustion amount, the combustion region, and the ignition timing, based on at least one of the injection amount, the heat generation amount, the penetration force, the diffusion state, and the ignition delay characteristic. 3. The estimation device for the combustion system according to claim 2 , wherein the combustion amount estimation unit is to estimate the combustion amount based on the injection amount, the heat generation amount, the penetration force, the diffusion state, and the ignition delay characteristic. 4. The estimation device for the combustion system according to claim 2 , wherein the region estimation unit is to estimate the combustion region based on the injection amount, the penetration force, the diffusion state, and the ignition delay characteristic among the injection amount, the heat generation amount, the penetration force, the diffusion state, and the ignition delay characteristic. 5. The estimation device for the combustion system according to claim 2 , wherein the timing estimation unit is to estimate the ignition timing based on the injection amount, the diffusion state, and the ignition delay characteristic among the injection amount, the heat generation amount, the penetration force, the diffusion state, and the ignition delay characteristic. 6. The estimation device for the combustion system according to claim 2 , further comprising: an OH radical estimation unit to estimate an OH radical generation state as an OH radical distribution based on the mixing ratio, in a case where an internal temperature of the combustion chamber is in a temperature range where the post injection is performed, wherein the timing estimation unit is to estimate the ignition timing based on the OH radical distribution estimated with the OH radical estimation unit in addition to at least one of the injection amount, the heat generation amount, the penetration force, the diffusion state, and the ignition delay characteristic. 7. The estimation device for the combustion system according to claim 6 , further comprising: a temperature acquisition unit to acquire an internal temperature of the combustion chamber; and an oxygen acquisition unit to acquire an oxygen concentration in the combustion chamber, wherein the OH radical estimation unit is to estimate the OH radical distribution based on the internal temperature acquired with the temperature acquisition unit and the oxygen concentration acquired with the oxygen acquisition unit, in addition to the mixing ratio. 8. A control device applicable to a combustion system having an internal combustion engine, comprising: a mixing acquisition unit to acquire a mixing ratio of various components contained in fuel used for combustion in the internal combustion engine; a combustion amount estimation unit to estimate a combustion amount of the fuel caused by a post-combustion generated by injecting the fuel into a combustion chamber of the internal combustion engine by post injection, based on the mixing ratio acquired by the mixing acquisition unit; a region estimation unit to estimate a combustion region of the post combustion in the combustion chamber based on the mixing ratio; a timing estimation unit to estimate an ignition timing, at which ignition occurs in the combustion chamber by the post injection, based on the mixing ratio; and a combustion control unit to control the combustion system based on respective estimation results of the combustion amount estimation unit, the region estimation unit, and the timing estimation unit. 9. The control device for the combustion system according to claim 8 , wherein the combustion control unit controls the combustion system based on the mixing ratio in addition to the respective estimation results of the combustion amount estimation unit, the region estimation unit, and the timing estimation unit.