Process of upgradation of residual oil feedstock

1 . A process of upgrading a residual hydrocarbon oil feedstock by reducing impurities using upgrading material, the process comprising: a) cracking the residual hydrocarbon oil feedstock along the length of a vertical transport Riser with an upgrading material, optionally adding ammonia or a basic nitrogen containing compound at the bottom of the vertical transport Riser; b) injecting oil soluble organo-metallic additives in the form of fine droplets at multiple locations in varying doses along the length of the Riser during the cracking of step (a); c) separating the cracked products and spent upgrading material in a Stripper and partially regenerating coke of the spent upgrading material so obtained in a Reformer; d) burning partially rejuvenated upgrading material from the Reformer in a Combustor; and e) circulating regenerated upgrading material from the Combustor to the Riser. 2 . The process as claimed in claim 1 , wherein the residual hydrocarbon oil feedstock is selected from the group comprising of vacuum residue, vacuum slop, bitumen, asphalt, visbreaker tar, heavy crude oil and mixture thereof having a significant amount of Conradson Carbon Residue, metals, asphaltenes, sulphur impurities and nitrogen. 3 . The process as claimed in claim 1 , wherein the upgrading material of step (a) is a porous fluidizable micro spherical solid particles belonging to Geldart Group A classification. 4 . The process as claimed in claim 1 , wherein the upgrading material of step (a) have a surface area above 80 m 2 /g and particle size and particle density is 20-200 microns and 1200-1600 kg/m 3 respectively and comprises of the microspheres composed of alumina, silica alumina, silica magnesia, kaolin clay or mixture thereof having lower MAT activity. 5 . The process as claimed in claim 1 , wherein the upgrading material is selected from the group comprising of spent catalyst or equilibrium catalyst generated from FCC or RFCC unit, fresh zeolite catalyst of FCC or RFCC unit, wherein the said catalyst are temporarily deactivated to neutralise the acidity, with basic nitrogen containing compounds or ammonia or mixture thereof, before contacting with hydrocarbon feedstock. 6 . The process as claimed in claim 1 , wherein the doses of the organo-metallic additives is maintained maximum at the feed injection point and gradually decreased towards the top. 7 . The process as claimed in claim 1 , wherein the oil soluble organo-metallic additives are selected from alkali, alkali-earth metals or transition group. 8 . The process as claimed in claim 7 , wherein alkali metal are Na and K; alkali-earth metals are Mg and Ca; and transition group is Fe. 9 . The process as claimed in claim 1 , wherein the organo-metallic additive is injected into the Riser to deposit metal on the spent upgrading material wherein the concentration of the metal on the upgrading material is in the range of 1000 to 2000 ppmw. 10 . The process as claimed in claim 1 , wherein the basic nitrogen containing compounds of step (a) belong to amines selected from alkylamines.