Integrated hydrotreating, solvent deasphalting and steam pyrolysis system for direct processing of a crude oil

1 . An integrated hydrotreating, solvent deasphalting and steam pyrolysis system for the direct processing of a crude oil to produce olefinic and aromatic petrochemicals, the system comprising: a catalytic hydroprocessing zone having inlet for receiving the crude oil feedstream and hydrogen recycled from a steam pyrolysis product stream effluent, and make-up hydrogen as necessary, and an outlet for discharging a hydroprocessed effluent, the catalytic hydroprocessing zone including a reactor operating under conditions effective to produce a hydroprocessed effluent; a solvent deasphalting zone in fluid communication with the hydroprocessed effluent outlet of the catalytic hydroprocessing zone having an inlet for receiving the hydroprocessed effluent and an outlet for a deasphalted and demetalized oil stream and an outlet for a bottom asphalt; a thermal cracking zone including a thermal cracking convection section with an inlet in fluid communication with the deasphalted and demetalized oil stream outlet, and an outlet, and a thermal cracking pyrolysis section having an inlet in fluid communication with the outlet of the convection section and the light fraction outlet, and a pyrolysis section outlet; a quenching zone in fluid communication with the pyrolysis section outlet, the quenching zone having an outlet for discharging an intermediate quenched mixed product stream and an outlet for discharging quenching solution; a product separation zone in fluid communication with the intermediate quenched mixed product stream outlet, and having a hydrogen outlet, one or more olefin product outlets and one or more pyrolysis fuel oil outlets; and a hydrogen purification zone in fluid communication with the product separation zone hydrogen outlet, the hydrogen purification zone having an outlet in fluid communication with the hydroprocessing zone. 2 . The integrated system of claim 1 , further comprising: a first compressor zone having an inlet in fluid communication with the quenching zone outlet discharging an intermediate quenched mixed product stream and an outlet discharging a compressed gas mixture; a caustic treatment unit having an inlet in fluid communication with the multi-stage compressor zone outlet discharging a compressed gas mixture, and an outlet discharging a gas mixture depleted of hydrogen sulfide and carbon dioxide; and a second compressor zone having an inlet in fluid communication with the caustic treatment unit outlet, and an outlet for discharging compressed cracked gas; a dehydration zone having an inlet in fluid communication with the second compressor zone outlet, and an outlet for discharging a cold cracked gas stream; the product separation zone including a de-methanizer tower, a de-ethanizer tower, a de-propanizer tower and a de-butanizer tower; the de-methanizer tower having an inlet in fluid communication with the dehydration zone outlet, an outlet for discharging an overhead stream containing hydrogen and methane and an outlet for discharging a bottoms stream, wherein the hydrogen purification zone is in fluid communication with the de-methanizer tower overhead outlet; and the de-ethanizer tower having an inlet in fluid communication with with the bottoms stream outlet of the de-methanizer tower. 3 . The integrated system of claim 2 , further comprising burners and/or heaters associated with the thermal cracking zone in fluid communication with the de-methanizer tower. 4 . The integrated system of claim 1 , further comprising a vapor-liquid separator having an inlet in fluid communication with the thermal cracking convection section outlet, a vapor fraction outlet and a liquid fraction outlet, the vapor fraction outlet in fluid communication with the thermal cracking pyrolysis section. 5 . The integrated system of claim 4 , wherein the vapor liquid separator is a physical or mechanical apparatus for separation of vapors and liquids. 6 . The integrated system of claim 4 , wherein the vapor liquid separator includes: a pre-rotational element having an entry portion and a transition portion, the entry portion having an inlet for receiving a flowing fluid mixture from the thermal cracking convection section outlet, and a curvilinear conduit; a controlled cyclonic section having an inlet adjoined to the pre-rotational element through convergence of the curvilinear conduit and the cyclonic section, a riser section at an upper end of the cyclonic member through which vapors pass to the thermal cracking pyrolysis section; and a liquid collector/settling section through which liquid passes as the discharged liquid fraction. 7 . The integrated system of claim 1 , further comprising a high pressure separator in fluid communication with the hydroprocessing zone reactor and having a gas portion outlet in fluid communication with the hydroprocessing zone reactor and a liquid portion outlet, and a low pressure separator in fluid communication liquid portion outlet of the high pressure separator, and having a gas portion outlet and a liquid portion outlet in fluid communication with the solvent deasphalting zone inlet. 8 . The integrated system of claim 7 , wherein the gas portion outlet of the low pressure separator is in fluid communication with the intermediate quenched mixed product stream. 9 . The integrated system of claim 1 , further comprising a vapor-liquid separator having an inlet in fluid communication with deasphalted and demetalized oil stream outlet, a vapor fraction outlet and a liquid fraction outlet, the vapor fraction outlet in fluid communication with the thermal cracking convection section. 10 . The integrated system of claim 9 , wherein the vapor liquid separator is a physical or mechanical apparatus for separation of vapors and liquids. 11 . The integrated system of claim 9 , wherein the vapor liquid separator includes: a pre-rotational element having an entry portion and a transition portion, the entry portion having an inlet for receiving a flowing fluid mixture of the deasphalted and demetalized oil stream, and a curvilinear conduit; a controlled cyclonic section having an inlet adjoined to the pre-rotational element through convergence of the curvilinear conduit and the cyclonic section, a riser section at an upper end of the cyclonic section through which vapors pass to the thermal cracking convection section; and a liquid collector/settling section through which liquid passes as the discharged liquid fraction. 12 . The integrated system of claim 1 , wherein the solvent deasphalting zone includes: a solvent deasphalting mixing zone in fluid communication with the hydroprocessed effluent outlet that includes an inlet for receiving the hydroprocessed effluent, an inlet for fresh solvent, an inlet for make-up solvent, and an outlet; a primary settler in fluid communication with the solvent deasphalting mixing zone outlet having an inlet for receiving a mixture from the solvent deasphalting mixing zone and a secondary asphalt phase, an outlet for discharging a primary deasphalted and demetalized oil phase and an outlet for a primary asphalt phase; a secondary settler in fluid communication with the primary settler primary deasphalted and demetalized oil phase outlet having an inlet for receiving the primary deasphalted and demetalized oil phase, an outlet for discharging a secondary deasphalted and demetalized oil phase and an outlet for the secondary asphalt phase; a deasphalted and demetalized separation zone in fluid communication with the secondary deasphalted and demetalized oil phase outlet for receiving the secondary deasphalted and demetalized oil phase, an outlet for a recycle solvent stream