Upgrade natural gas condensate and other contaminated streams to higher-value ethylene plant feedstocks. Mercury, arsenic and lead contamination in potential ethylene plant feedstocks precludes their…

The MaxEne process increases the ethylene yield from naphtha crackers by raising the concentration of normal paraffins (nparaffins) in the naphtha-cracker feed. The MaxEne process…

To produce polymer-grade ethylene and propylene by thermally cracking hydrocarbon feedstocks (ethane through hydro-cracked residue). Shaw’s key process technologies are: 1. Ultra-selective cracking (USC) furnaces—Selective…

To produce polymer-grade ethylene and propylene, a butadiene rich C4 cut, an aromatic C6 – C8 rich-raw pyrolysis gasoline and high-purity hydrogen by using the…

Thermal cracking of a wide range of feedstocks into light olefins (mainly ethylene and propylene) and aromatics using proprietary cracking coils. Feedstocks: Ethane, propane through…

To produce polymer-grade ethylene and propylene, a butadiene rich C4 cut, an aromatic C6–C8 rich raw pyrolysis gasoline and a high-purity hydrogen by steam pyrolysis…

To produce polymer-grade ethylene (99.95 vol%). Major byproducts are propylene (chemical or polymer-grade), a butadiene-rich C4 stream, C6 to C8 aromatics-rich pyrolysis gasoline and high-purity…

To produce polymer-grade ethylene and propylene by thermal cracking of hydrocarbon fractions — from ethane through naphtha up to hydrocracker residue. Byproducts are a butadiene-rich…

The CBL cracking technology is a steam cracking technology developed by SINOPEC. The steam-cracking furnace for ethylene production can be designed with this technology. This…