Delayed coking process with pre-cracking reactor

We claim: 1. A method of reducing overall coke yield said method consisting of the steps of: (a) heating a hydrocarbon feedstock ( 74 ) mixed with a Clarified Oil (CLO) stream ( 75 ) in a furnace ( 76 ) to obtain hot feed ( 77 ); (b) introducing the hot feed ( 77 ) of step (a) in a pre-cracking reactor ( 78 ) wherein it undergoes mild thermal cracking reactions at a temperature in the range of 350 to 470° C., a pressure in the range of 1 to 15 kg/cm 2 and a residence time in the range of 1 to 40 minutes to obtain an outlet product material stream ( 79 ); (c) passing the outlet product material stream ( 79 ) of step (b) to an intermediate separator ( 80 ) to split the outlet product material stream ( 79 ) into top fraction ( 81 ) and heavy bottom product ( 82 ) and transferring the top fraction ( 81 ) to a main fractionator ( 73 ); (d) heating the heavy bottom product ( 82 ) of step (c) in a furnace ( 76 ) to obtain hot hydrocarbon stream ( 83 ); (e) transferring the hot hydrocarbon stream ( 83 ) of step (d) to preheated coke drums ( 84 ) where it undergoes severe thermal cracking reactions at a temperature in the range of 470 to 520° C., a pressure in the range of 0.5 to 5 kg/cm 2 and a residence time of more than 10 hours to obtain product vapors ( 85 ); and (f) passing the product vapors ( 85 ) of step (e) to the main fractionator ( 73 ) to obtain desired product fractions ( 86 , 87 , 88 , 89 , 90 ); wherein the hydrocarbon feedstock ( 74 ) has conradson carbon residue content of above 4 wt % and density of at least0.95 g/cc; wherein in step (a) the hydrocarbon feedstock ( 74 ) is obtained by feeding a resid feed ( 72 ) selected from vacuum residue, reduced crude oil, deasphalted pitch, shale oil, coal tar, heavy waxy distillates, foots oil, slop oil and blends thereof, into a bottom section of the main fractionator ( 73 ) and obtained as a bottom fraction ( 74 ) from the main fractionator ( 73 ), prior to heating in the furnace ( 76 ), wherein the resid feed ( 72 ) is introduced into the bottom section of the main fractionator ( 73 ) below a location where the top fraction ( 81 ) and the product vapors ( 85 ) enter the main fractionator ( 73 ); wherein in step (d) the heavy bottom product ( 82 ) of step (c) is mixed with Clarified Oil (CLO) stream prior to sending to the furnace ( 76 ) to produce the hot hydrocarbon stream ( 83 ); wherein in step (c) the intermediate separator ( 80 ) is operated in the pressure range of about 0.2 to 6 Kg/cm 2 . 2. The method as claimed in claim 1 , wherein the product fractions are selected from LPG and naphtha, Kerosene, LCGO, HCGO and Coker Fuel Oil (CFO).