Hydrocracking process and system including separation of heavy poly nuclear aromatics from recycle by sulfonation

The invention claimed is: 1. A two stage hydrocracking process for hydrocracking of a vacuum gas oil, a demetallized oil, a deasphalted oil, a coker gas oil, a cycle oil or a visbroken oil hydrocarbon stream, the process comprising: subjecting the vacuum gas oil, demetallized oil, deasphalted oil, coker gas oil, cycle oil or visbroken oil hydrocarbon stream to a first hydrocracking stage to produce a first hydrocracked effluent; fractionating the first hydrocracked effluent to recover one or more hydrocracked product fractions and a bottoms fraction corresponding to the hydrocracked bottoms fraction, wherein the hydrocracker bottoms fraction contains heavy poly nuclear aromatic (HPNA) compounds that are formed during hydrocracking reactions; separating HPNA compounds from the hydrocracked bottoms fraction by contacting the hydrocracked bottoms fraction with an effective quantity of a sulfonation agent to promote reaction with HPNA compounds to produce corresponding sulfonated HPNA compounds and to form a sulfonated hydrocracked bottoms fraction, separating the sulfonated hydrocracked bottoms fraction into an HPNA-reduced hydrocracked bottoms portion and a sulfonated HPNA portion, and discharging the sulfonated HPNA portion; passing all or a portion of the HPNA-reduced hydrocracked bottoms portion to a second hydrocracking stage to produce a second hydrocracked effluent; and subjecting the second hydrocracked effluent to fractionating with the first hydrocracked effluent. 2. The process as in claim 1 , further comprising contacting an additional feed with the sulfonation agent. 3. The process as in claim 2 , wherein the additional feed is selected from the group consisting of one or more of straight run vacuum gas oil, treated vacuum gas oil, demetallized oil from solvent demetallizing operations, deasphalted oil from solvent deasphalting operations, coker gas oils from coker operations, cycle oils from fluid catalytic cracking operations including heavy cycle oil, and visbroken oils from visbreaking operations, and wherein the additional feed has a boiling point range within about 350-800° C. 4. The process as in claim 1 , wherein the sulfonation agent is liquid phase, and wherein contacting the hydrocracked bottoms fraction with the liquid phase sulfonation agent occurs under operating conditions including a reaction temperature in the range of from about 0-150° C., a reaction pressure in the range of from about 1-30 bars, a sulfonation agent to aromatic carbon containing compounds (molar ratio) of from about 1:1-15:1, and a feed rate liquid hourly space velocity based on the volume of the reactor in the range of from about 0.5-20 h −1 . 5. The process as in claim 4 , wherein the sulfonation agent is sulfuric acid. 6. The process as in claim 4 , wherein contacting the hydrocracked bottoms fraction with the sulfonation agent comprises introducing the sulfonation agent and the hydrocracked bottoms fraction into a sulfonation reaction zone. 7. The process as in claim 4 , wherein contacting the hydrocracked bottoms fraction with the sulfonation agent comprises introducing the sulfonation agent and the hydrocracked bottoms fraction into a contacting and/or mixing zone to promote intimate mixing of oil and sulfonation agent and to produce a mixture, and passing the mixture to a sulfonation reaction zone to promote reaction with HPNA compounds to produce corresponding sulfonated HPNA compounds and to form the sulfonated hydrocracked bottoms fraction. 8. The process as in claim 1 , wherein the sulfonation agent is gas phase and is selected from the group consisting of SO 2 , SO 3 and mixtures of SO 2 and SO 3 and wherein contacting the hydrocracked bottoms fraction with the gas phase sulfonation agent occurs under operating conditions including a reaction temperature in the range of from about 20-600° C., a reaction pressure in the range of from about 0.01 (vacuum)-100 bars, a sulfonation agent to aromatic carbon containing compounds (molar ratio) of from about 1:1-15:1, and a feed rate liquid hourly space velocity based on the volume of the reactor in the range of from about 0.5-20 h − . 9. The process as in claim 8 , wherein contacting the hydrocracked bottoms fraction with the sulfonation agent comprises introducing the sulfonation agent and the hydrocracked bottoms fraction into a sulfonation reaction zone. 10. The process as in claim 8 , wherein contacting the hydrocracked bottoms fraction with the sulfonation agent comprises introducing the sulfonation agent and the hydrocracked bottoms fraction into a contacting and/or mixing zone to promote intimate mixing of oil and sulfonation agent and to produce a mixture, and passing the mixture to a sulfonation reaction zone to promote reaction with HPNA compounds to produce corresponding sulfonated HPNA compounds and to form the sulfonated hydrocracked bottoms fraction. 11. The process as in claim 10 , wherein the contacting and/or mixing zone comprises a gas distributor vessel in which gaseous sulfonation agent is injected at plural locations through distributors into the vessel for adequate mixing to effectively dissolve gaseous sulfonation agent in the hydrocracked bottoms fraction. 12. The process as in claim 1 , wherein the sulfonated hydrocracked bottoms fraction includes water, and wherein the mixture is phase separated into an aqueous phase containing at least a part of the sulfonated HPNA portion and an oil phase containing at least a part of the HPNA-reduced hydrocracked bottoms portion. 13. The process as in claim 12 , wherein the sulfonation agent is provided in an aqueous solution, and wherein the water in the sulfonated hydrocracked bottoms fraction is derived from the aqueous solution. 14. The process as in claim 12 , wherein the water in the sulfonated hydrocracked bottoms fraction is added prior to or during phase separating. 15. The process as in claim 1 , wherein separating the sulfonated hydrocracked bottoms fraction comprises contacting the sulfonated hydrocracked bottoms fraction with an effective quantity of aromatic selective solvent and under conditions effective to form an extract phase containing the sulfonated HPNA portion, and a raffinate phase containing the HPNA-reduced hydrocracked bottoms portion. 16. The process as in claim 8 , further comprising discharging excess gas phase sulfonation agent either: before separation of the sulfonated bottoms fraction into an HPNA-reduced bottoms portion and a sulfonated HPNA portion; or during separation of the sulfonated bottoms fraction into an HPNA-reduced bottoms portion and a sulfonated HPNA portion. 17. A hydrocracking process for hydrocracking of a vacuum gas oil, a demetallized oil, a deasphalted oil, a coker gas oil, a cycle oil or a visbroken oil hydrocarbon stream, the process comprising: subjecting the vacuum gas oil, demetallized oil, deasphalted oil, coker gas oil, cycle oil or visbroken oil hydrocarbon stream to one or more hydrocracking stages to produce a hydrocracked effluent; fractionating the hydrocracked effluent to recover one or more hydrocracked product fractions and a hydrocracked bottoms fraction, wherein the hydrocracker bottoms fraction contains heavy poly nuclear aromatic (HPNA) compounds that are formed during hydrocracking reactions; separating HPNA compounds from the hydrocracked bottoms fraction by contacting the hydrocracked bottoms fraction with an effective quantity of a sulfonation agent to promote reaction with HPNA compounds to produce corresponding sulfonated HPNA compounds and to form a sulfonated hydrocracked bottoms fraction, sepa