Method for improving propylene recovery from fluid catalytic cracker unit

The invention claimed is: 1. A method for treating a cracked stream from a fluid catalytic cracker unit (FCCU) comprising the following steps: compressing and partly condensing a gas stream from a main fractionator column overhead receiver of the FCCU to produce a compressed and partially condensed gas stream; separating the compressed and partially condensed gas stream to produce an upstream liquid and an upstream gas; heating the upstream liquid; introducing the heated liquid into an upstream stripper to produce a first top stream rich in C2 compounds and a first bottom liquid stream rich in C3+ hydrocarbons; introducing the first bottom liquid stream into a first heat exchanger and then into a second heat exchanger to produce a heated first side liquid stream; introducing the heated first side liquid stream into a stabilizer column to produce a second top stream rich in C3 and C4 hydrocarbons, a side liquid stream rich in C5 and C6 hydrocarbons, and a stabilizer bottom liquid stream rich in C5, C6 and C7+ hydrocarbons; introducing the side liquid stream into the first heat exchanger to produce a cooled side liquid stream: further cooling the cooled side liquid stream to produce a further cooled side liquid stream; introducing the upstream gas and at least a portion of the stabilizer bottom liquid stream into a primary absorber to produce a third top gas stream and a second bottom liquid stream; cooling the third top gas stream; introducing the cooled third top gas stream and the further cooled side liquid stream into a propylene absorber, recovering a third bottom stream liquid rich in C3 hydrocarbons and a fourth top gas stream poor in C3 hydrocarbons from the propylene absorber; and introducing lean oil from the FCCU main fractionator column and the fourth top gas stream into a sponge absorber to recover a fuel gas and a rich oil. 2. The method according to claim 1 , further comprising mixing the third bottom liquid stream from the propylene absorber with the compressed and partially condensed stream from the main fractionator column before separating the compressed and partially condensed stream into the upstream liquid and the upstream gas. 3. The method according to claim 1 , further comprising introducing the cooled side liquid stream recovered from the first heat exchanger into a third heat exchanger before further cooling the cooled side liquid stream. 4. The method according to claim 3 , further comprising introducing the further cooled side liquid stream recovered from the third heat exchanger into fourth heat exchanger before cooling the further cooled side liquid stream. 5. The method according to claim 1 , further comprising: introducing the second top stream into a condenser; retrieving a condensed stream from the condenser; cooling the condensed stream to produce a cooled condensed stream; and separating the cooled condensed stream into a fourth liquid stream which is introduced into the stabilizer column and a fifth liquid stream which is sent to a LPG treating unit to recover LPG. 6. The method according to claim 1 , wherein the first top stream is mixed with the compressed and partially condensed stream from the main fractionator column overhead receiver before the separation of the resulting stream into the upstream liquid and the upstream gas. 7. The method according to claim 1 , wherein the second bottom liquid stream is mixed with the compressed and partially condensed stream from the main fractionator column overhead receiver before the separation of the resulting stream into the upstream liquid and the upstream gas. 8. The method according to claim 1 , wherein the third bottom liquid stream from the propylene absorber is mixed with the compressed and partially condensed stream from the main fractionator column overhead receiver before the separation of the resulting stream into the upstream liquid and the upstream gas. 9. The method according to claim 1 , wherein a gas stream from a propylene recovery unit which is rich in propylene is mixed with the compressed and partially condensed stream from the main fractionator column overhead receiver before the separation of the resulting stream into the upstream liquid and the upstream gas.