Method for synthesising a mercaptan by adding hydrogen sulfide to an olefin

1 . A process for synthesis of a mercaptan starting from a terminal olefin and hydrogen sulphide comprising at least the following successive steps: A—catalytically adding hydrogen sulphide to a terminal olefin catalysed by an acid catalyst, then B—separating the products of the addition reaction into a light fraction comprising the excess hydrogen sulphide and the olefins, and a heavy fraction comprising at least one mercaptan and optionally one or more thioethers, C—in a finishing step, passing the light fraction obtained from step B over an acid catalyst, then D—separating the products from the finishing step into a fraction rich in hydrogen sulphide and a fraction rich in addition products and then E—recycling the fraction rich in hydrogen sulphide to step A. 2 . A process according to claim 1 , wherein the mercaptan synthesized is a secondary mercaptan. 3 . A process according to claim 1 , wherein the catalyst used in the addition step is a catalyst comprising Lewis acid sites. 4 . A process according to claim 1 , wherein the addition reaction in step A and/or the step C is or are heterogeneous catalyses using a solid acid catalyst. 5 . A process according to claim 3 , wherein the catalyst comprising Lewis acid sites is selected from the group consisting of oxides of molybdenum, oxides of cobalt, oxides of chromium, cobalt molybdate, phosphotungstic acids deposited on supports selected from activated carbon, alumina, zirconia, silica, thorium oxide, pumice stone and silica-alumina compositions, preferably chromium oxide supported on alumina. 6 . A process according to claim 1 , wherein the terminal olefin is of the following general formula (1): R 1 R 2 C═CH 2   (1), in which R 1 denotes a hydrogen atom, and R 2 represents an alkyl radical with from 1 to 20 carbon atoms, linear, branched or cyclic. 7 . A process according to claim 6 , wherein the terminal olefin is 1-butene. 8 . A process according to claim 1 , wherein the catalyst used for the finishing step is an acid catalyst that has strong acid sites. 9 . A process according to claim 1 , wherein the process comprises the following additional step: F—purifying the heavy fraction obtained from separation step B and the fraction rich in addition products obtained from separation step E, combined into one or more light fractions comprising one or more mercaptans and a heavy fraction comprising the sulphides. 10 . A process according to claim 9 , wherein the process comprises the following additional step: G—recycling the heavy fraction from the purification step F defined to the finishing step C. 11 . An installation for carrying out the process as defined in claim 1 comprising: an addition reactor, supplied with hydrogen sulphide and with olefin via a first pipeline and a second pipeline, a third pipeline, connected to an outlet of the addition reactor, which supplies a first separating device with a stream of crude reaction mixture, a fourth pipeline, connected to an outlet of the first separating device, which supplies a finishing reactor with the light fraction comprising the excess hydrogen sulphide and the olefins, a fifth pipeline, connected to an outlet of the finishing reactor, which supplies a second separating device with all of the reaction mixture from the finishing reactor, a sixth pipeline located at an outlet of the second separating device which recycles the fraction rich in hydrogen sulphide to the addition reactor and additional pipelines coming from the first and second separating devices which recover the heavy fraction comprising at least one mercaptan and optionally one or more thioethers and the fraction rich in addition products. 12 . An installation according to claim 11 , wherein the installation comprises a purification device, connected to the additional pipelines coming from the first and second separating devices, the purification device being able to isolate a secondary mercaptan in a first line, a linear mercaptan in a second line and to discharge a heavy fraction comprising the sulphides and other by-products in a third line. 13 . An installation according to claim 12 , wherein the installation comprises a fourth line, connected to the outlet of the purification device, conveying the sulphides and other by-products, the fourth line supplying the finishing reactor. 14 . A process according to claim 3 , wherein the catalyst comprising Lewis acid sites is chromium oxide supported on alumina. 15 . A process according to claim 6 , wherein R 2 represents an alkyl radical with from 2 to 12 carbon atoms, linear branched or cyclic. 16 . A process according to claim 1 , wherein the catalyst used for the finishing step is selected from the group consisting of cation exchange resins and zeolites, whether exchanged or not.