Recovery and re-use of waste energy in industrial facilities

The invention claimed is: 1. A system comprising a crude oil refining facility comprising: a flow control system comprising flow pumps, flow pipes, and valves; an amine regeneration plant comprising an acid gas absorber column, an acid gas regenerator column, and an acid gas regenerator bottoms stream comprising a weak amine salt; an aromatics complex comprising an aromatics complex benzene extraction unit comprising a benzene distillation column and a benzene column bottoms stream, a raffinate column bottom stream, and a naphtha splitter column bottom stream, the aromatics complex comprising at least one of benzene, toluene, or xylene; a sour water stripper plant comprising a sour water stripper column and a stripper bottom stream; a sulfur recovery plant comprising an amine regenerator distillation column and an amine regenerator bottoms stream; a gas separation plant comprising a de-ethanizer distillation column, a C3/C4 splitter distillation column, a C3/C4 splitter column bottom stream, and a de-ethanizer column bottoms stream; the aromatics complex comprising an aromatics plant xylene products separation unit comprising an extract column, a raffinate column, a raffinate column overheads stream, and an extract column overheads stream; a hydrocracking plant comprising feed furnaces, a first stage reaction reactor vessel, a second stage reaction reactor vessel, a first stage reaction cold high pressure separator comprising a separator vessel, a second stage reaction cold high pressure separator comprising another separator vessel, a product stripper stream, a diesel product stream, a kerosene product cooling stream from a main fractionator column, and a kerosene pumparound stream; a diesel hydro-treating plant comprising a diesel stripper column and a diesel stripper bottom stream; a first heat exchanger configured to heat the acid gas regenerator bottoms stream in the amine regeneration plant using a branch of the raffinate column overheads stream in the aromatics plant xylene products separation unit; and a second heat exchanger configured to heat a branch of the stripper bottom stream in the sour water stripper plant using the diesel stripper bottom stream in the diesel hydro-treating plant. 2. The system of claim 1 , comprising: a third heat exchanger configured to heat a branch of the stripper bottom stream using a branch of the extract column overheads stream in the aromatics plant xylene products separation unit; and a fourth heat exchanger configured to heat a branch of the amine regenerator bottoms stream in the sulfur recovery plant using a feed stream to the first stage reaction cold high pressure separator. 3. The system of claim 2 , comprising: a fifth heat exchanger configured to heat a branch of the C3/C4 splitter column bottom stream in the gas separation plant using the diesel stripper bottom stream exiting the second heat exchanger; a sixth heat exchanger configured to heat a branch of the de-ethanizer column bottoms stream in the gas separation plant using the diesel stripper bottom stream exiting the fifth heat exchanger; a seventh heat exchanger configured to heat a branch of the benzene column bottoms stream in the aromatics complex benzene extraction unit using a branch of the raffinate column overheads stream; and an eighth heat exchanger configured to heat a branch of the raffinate column bottom stream in the aromatics complex benzene extraction unit using a feed stream to the second stage reaction cold high pressure separator in the hydrocracking plant. 4. The system of claim 3 , wherein the first heat exchanger and the seventh heat exchanger are fluidically coupled to each other in parallel, wherein the second heat exchanger, the fifth heat exchanger and the sixth heat exchanger are fluidically coupled to each other in series, and wherein the second heat exchanger and the third heat exchanger are fluidically coupled to each other in parallel. 5. The system of claim 3 , comprising: heat exchanger A configured to heat a branch of the naphtha splitter column bottoms stream using a diesel stripper overhead stream in the diesel hydro-treating plant; heat exchanger B configured to heat a branch of the naphtha splitter column bottom stream in the aromatics complex benzene extraction unit using the raffinate column overheads stream; heat exchanger C configured to heat a branch of the naphtha splitter bottoms stream using the product stripper stream in the hydrocracking plant; heat exchanger D configured to heat a branch of the naphtha splitter bottoms stream using the diesel product stream in the hydrocracking plant; heat exchanger E configured to heat a branch of the naphtha splitter bottoms stream using the kerosene product cooling stream from the main fractionator column in the hydrocracking plant; and heat exchanger F configured to heat a branch of the naphtha splitter bottoms stream using the kerosene pumparound stream in the hydrocracking plant. 6. The system of claim 5 , wherein the branches of the naphtha splitter bottoms stream are flowed in parallel to the heat exchanger A, the heat exchanger B, the heat exchanger C, the heat exchanger D, the heat exchanger E and the heat exchanger F. 7. The system of claim 5 , wherein the heat exchanger A, the heat exchanger B, the heat exchanger C, the heat exchanger D, the heat exchanger E and the heat exchanger F are fluidically coupled to each other in parallel, wherein the heat exchanger B and a combination of the first heat exchanger and the seventh heat exchanger are fluidically coupled to each other in series. 8. The system of claim 5 , wherein the flow control system is configured to perform operations comprising: flowing the branches of the heated naphtha splitter bottoms stream to the aromatics complex benzene extraction unit; flowing the branches of the branches of the heated stripper bottom stream to the sour water stripper plant; flowing the branches of the heated C3/C4 splitter bottom streams and the de-ethanizer column bottoms stream to the gas separation plant; flowing the branches of the heated amine regenerator bottoms stream to the sulfur recovery plant; and flowing the branches of the heated acid gas regenerator bottoms streams to the amine regeneration plant. 9. A system comprising a crude oil facility comprising: a supply of buffer fluid a flow control system comprising flow pumps, flow pipes, and valves; an aromatics complex comprising an aromatics complex benzene extraction unit and an aromatics plant xylene product separations unit, the aromatics complex comprising at least one of benzene, toluene, or xylene, wherein the aromatics complex benzene extraction unit comprises a benzene distillation column and a naphtha splitter column bottoms stream, and wherein the aromatics plant xylene products separation unit comprises an extract column, a raffinate column, a raffinate column overheads stream, and an extract column overheads stream; a hydrocracking plant comprising feed furnaces, a first stage reaction reactor vessel, a second stage reaction reactor vessel, a main fractionator column, a product stripper stream, a diesel product stream, a kerosene product cooling stream from the main fractionator column, a kerosene pumparound stream, and a first stage reaction feed stream to a cold high pressure separator; a first heat exchanger configured to heat a branch of the buffer fluid using the raffinate column overheads stream; and a second heat exchanger configured to heat a branch of the buffer fluid using the extract column overheads stream in the aromatics plant xylene products separation unit. 10. The system of claim 9 , wherein the buffer fluid comprises at least one of oil or water.