Systems for recovery and re-use of waste energy in hydrocracking-based configuration for integrated crude oil refining and aromatics complex

The invention claimed is: 1. A system comprising: a plurality of oil refining plants in a crude oil refining facility, each oil refining plant configured to perform at least one oil refining process, wherein a plurality of streams at respective temperatures flow between the plurality of oil refining plants; a flow control system configured to: flow a first plurality of streams from a first subset of the plurality of oil refining plants to a plurality of heat exchangers, wherein the first subset comprises a naphtha hydrotreating plant, a gas separation plant, an amine regeneration plant, a sulfur recovery plant, a sour water stripper plant, and an aromatics plant which comprises an aromatics plant xylene products separation unit and an aromatics complex benzene extraction unit, wherein the plurality of first streams comprises a sulfur recovery plant amine regeneration unit stripper bottom stream in the sulfur recovery plant, a raffinate splitter bottoms stream in the aromatics complex benzene extraction unit, an acid gas regenerator bottoms stream in the amine regeneration plant, a sour water stripper bottoms stream in the sour water stripper plant, a benzene column bottoms stream in the aromatics complex benzene extraction unit, a C3/C4 stripper bottom stream in the gas separation plant, and a de-ethanizer bottoms stream in the gas separation plant, and flow a second plurality of streams from a second subset of the plurality of oil refining plants to the plurality of heat exchangers; and the plurality of heat exchangers configured to transfer heat from the first plurality of streams to the second plurality of streams, wherein the second subset comprises a hydrogen plant, a diesel hydrotreating plant, and hydrocracking plant, wherein the second plurality of streams comprises a kerosene pumparound stream in the hydrocracking plant, a kerosene product stream in the diesel hydrotreating plant, a diesel stripper overheads stream in the diesel hydrotreating plant, a stripper bottom product stream in the diesel hydrotreating plant, a diesel stripper bottoms stream in the diesel hydrotreating plant, and a low temperature shift converter steam in the hydrogen plant. 2. The system of claim 1 , wherein the plurality of heat exchangers are configured to directly transfer heat, wherein, to directly transfer the heat, the plurality of heat exchangers comprises: a first heat exchanger configured to heat a branch of the sulfur recovery plant amine regeneration unit stripper bottom stream in the sulfur recovery plant using a diesel product stream in the hydrocracking plant, a second heat exchanger configured to heat the raffinate splitter bottoms stream in the aromatics complex benzene extraction unit using a second stage reaction section feed to a second stage cold high pressure separator in the hydrocracking plant, a third heat exchanger configured to heat a branch of the acid gas regenerator bottoms stream in the amine regeneration plant using a first stage reaction section feed to a first stage cold high pressure separator in the hydrocracking plant, a fourth heat exchanger configured to heat a branch of the sour water stripper bottoms stream in the sour water stripper plant using a stripper overhead stream in the hydrocracking plant, a fifth heat exchanger configured to heat the benzene column bottoms stream in the aromatics complex benzene extraction unit using a kerosene pumparound stream in the hydrocracking plant, a sixth heat exchanger configured to heat a branch of the C3/C4 stripper bottom stream in the gas separation plant using the kerosene pumparound stream, a seventh heat exchanger configured to heat a branch of the sulfur recovery plant amine regeneration unit stripper bottom stream using a kerosene product stream in the diesel hydrotreating plant, an eighth heat exchanger configured to heat a branch of the sour water stripper bottoms stream using a diesel stripper overheads stream in the diesel hydrotreating plant, a ninth heat exchanger configured to heat the acid gas bottom stream using a stripper bottom product stream in the diesel hydrotreating plant, a tenth heat exchanger configured to heat a branch of the C3/C4 stripper bottom stream using a diesel stripper bottoms stream in the diesel hydrotreating plant, an eleventh heat exchanger configured to heat the de-ethanizer bottoms stream in the gas separation plant using the diesel stripper bottoms stream; a twelfth heat exchanger configured to heat a branch of the sour water stripper bottoms stream using a low temperature shift converter steam in the hydrogen plant, and wherein the flow control system is configured to: flow the heated benzene column bottoms stream and the raffinate splitter bottoms stream to the aromatics complex benzene extraction unit, flow the branches of the heated sour water stripper streams to the sour water stripper plant, flow the branches of the heated C3/C4 splitter bottom streams and the de-ethanizer bottoms stream to the gas separation plant, flow the branches of the heated sulfur recovery plant amine regeneration unit stripper bottom stream to the sulfur recovery plant, and flow the branches of the heated acid gas regenerator bottoms streams to the amine regeneration plant.