Method of hydrogenolysis for improved production of paraxylene

The invention claimed is: 1. A selective hydrogenolysis process in which a feedstock rich in aromatic compounds having more than 8 carbon atoms is treated and which process comprises converting one or more alkyl group(s) having at least two carbon atoms attached to a benzene nucleus into one or more methyl group(s) to increase the amount of available methyl groups and consequently to produce xylenes to the detriment of benzene, said process being carried out in a reactor in the presence of a catalyst consisting of nickel nanoparticles deposited on alumina or silica, and having or not having structured porosity, the reaction taking place: at a temperature of between 300° C. and 550° C., at a pressure of between 1 and 30 bar, with a H 2 /HC molar ratio of between 1 and 10, and with a weight hourly space velocity of between 0.1 and 50 h −1 . 2. The selective hydrogenolysis process as claimed in claim 1 , which takes place in a reactor that is a fixed bed type reactor and the catalyst is in the form of extrudates. 3. The selective hydrogenolysis process as claimed in claim 1 , which takes place in a reactor that is a moving bed type reactor and the catalyst is in the form of approximately spherical beads. 4. The selective hydrogenolysis process as claimed in claim 1 , wherein the hydrocarbon feedstock contains more than 80% by weight of aromatics, and at least 90% by weight of molecules having between 8 and 10 carbon atoms. 5. The selective hydrogenolysis process as claimed in claim 1 , in which the reaction takes place: at a temperature of between 370° C. and 450° C., at a pressure of between 2 and 10 bar, with a H 2 /HC molar ratio of between 1.5 and 6, and with a weight hourly space velocity of between 3 and 20 h −1 . 6. The selective hydrogenolysis process as claimed in claim 1 , in which the reaction takes place: at a pressure of between 2 and 4.5 bar. 7. The selective hydrogenolysis process as claimed in claim 1 , wherein the reaction takes place: at a temperature of between 350° C. and 500° C., at a pressure of between 2 and 20 bar, with a H 2 /HC molar ratio of between 1.5 and 6, and with a weight hourly space velocity of between 1 and 30 h −1 . 8. A process for the production of xylenes using an aromatic complex comprising a selective hydrogenolysis process as claimed in claim 1 , said aromatic complex comprising at least: a unit for the hydrogenolysis (a) of alkylaromatics in which aromatics having between 9 and 10 carbon atoms, imported or extracted from internal streams of the aromatic complex, are treated, a unit of transalkylation type (k) in which toluene and trimethylbenzenes are converted into xylenes, a fractionation train formed at least of a benzene separation column (e), a toluene separation column (f), a xylenes separation column (g) and a heavy aromatics separation column (h), wherein the fractionation train extracts benzene, toluene and the xylenes from a reformate stream ( 1 ) comprising compounds having at least 6 carbon atoms; wherein: an aromatic fraction having 9 and 10 carbon atoms ( 12 ) resulting from the heavy aromatics separation column (h) is fed to the hydrogenolysis unit (a), the effluents of the hydrogenolysis unit (a) are sent to the transalkylation unit (k), and a bottom fraction ( 26 ) having 8 and more carbon atoms of the transalkylation unit (k) is sent to the fractionation train. 9. The process for the production of xylenes as claimed in claim 8 , in which: the fractionation train comprises columns for distillation of the aromatics and separates the following 5 fractions: a benzene fraction ( 6 ), a toluene fraction ( 8 ), an aromatic fraction having 8 carbon atoms ( 10 ), an aromatic fraction having 9 and 10 carbon atoms ( 12 ), and a heavy aromatics fraction ( 13 ), the most volatile entities of which are aromatics having 10 carbon atoms, and the hydrogenolysis unit (a) treats the aromatic fraction having 9 and 10 carbon atoms ( 12 ) resulting from the fractionation train, the hydrogenolysis effluent being passed to a first separation column (a 2 ) to provide a heavy fraction ( 23 ) having at least 9 carbon atoms, which is mixed with the toluene fraction ( 8 ) resulting from the fractionation train to provide a mixture, which is fed to the transalkylation unit (k), the transalkylation effluent being passed to a second separation column (k 2 ) to provide: a bottom fraction ( 26 ) having more than 6 carbon atoms, which is recycled to the benzene separation column (e) of the fractionation train; and a stream ( 25 ) comprising benzene and compounds more volatile than benzene that is sent to a unit (d) for extraction of benzene and toluene from which a benzene/toluene fraction ( 5 ) is recycled to the benzene separation column (e) of the fractionation train. 10. The process for the production of xylenes as claimed in claim 8 , in which: the fractionation train comprises columns for distillation of the aromatics and separates the following 5 fractions: a benzene fraction ( 6 ), a toluene fraction ( 8 ), an aromatic fraction having 8 carbon atoms ( 10 ), an aromatic fraction having 9 and 10 carbon atoms ( 12 ), and a heavy aromatics fraction ( 13 ), the most volatile entities of which are aromatics having 10 carbon atoms, and the hydrogenolysis unit (a) treats the aromatic fraction having 9 and 10 carbon atoms ( 12 ) resulting from the fractionation train and an imported feedstock rich in alkylaromatics, the hydrogenolysis effluent being passed to a first separation column (a 2 ) to provide: a heavy fraction ( 23 ) having at least 9 carbon atoms which is mixed with the toluene fraction resulting from the fractionation train to provide a mixture which is fed to a transalkylation section (k 1 ) of the transalkylation unit (k); and a light fraction ( 22 ) having 8 and fewer carbon atoms bypassing the transalkylation section (k 1 ) to feed a downstream separation column (k 2 ) of the transalkylation unit (k). 11. The process for the production of xylenes as claimed in claim 9 , in which the aromatic fraction having 8 carbon atoms ( 10 ) is treated in a unit for the extraction of para-xylene (i). 12. The process for the production of xylenes as claimed in claim 11 , in which the unit for the extraction of para-xylene (i) is of simulated moving bed type in which separation is by molecular sieve and desorbent. 13. The process for the production of xylenes as claimed in claim 11 , in which raffinate from the unit for the extraction of para-xylene (i), formed of ortho-xylene, meta-xylene and ethylbenzene, is converted in an isomerization unit (j) targeted at producing para-xylene, wherein the effluents of the isomerization unit (j) being recycled to the fractionation train. 14. A process for the production of xylenes using an aromatic complex comprising a selective hydrogenolysis process in which a feedstock rich in aromatic compounds having more than 8 carbon atoms is treated and which comprises converting one or more alkyl group(s) having at least two carbon atoms attached to a benzene nucleus into one or more methyl group(s) to increase the amount of available methyl groups and consequently to produce xylenes to the detriment of benzene, said selective hydrogenolysis process being carried out in a reactor in the presence of a catalyst comprising at least one metal from Group VIII of the Periodic Table, and a porous support comprising at least one crystalline or noncrystalline refractory oxide, having or not having structured porosity, the selective hydrogenolysis reaction taking place: at a temperature of between 300° C. and 550° C., at a pre