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AMUR GCC Project showing the 9 Linde Pyrolysis Furnaces and the Quench Tower | AGCC website

Amur Gas Chemical Complex: Navigating Technology Licensing Challenges

The Amur Gas Chemical Complex (Amur GCC) exemplifies the intricate balance between technological ambition and geopolitical realities. Originally designed to become the world’s largest polymer production site, the project has faced significant delays due to shifts in technology licensing dynamics, even as its core infrastructure advances.

The Amur GCC Project

Amur GCC stands as one of the most ambitious petrochemical undertakings in Russia’s recent history and a flagship of Russian-Chinese industrial cooperation. Located near Svobodny in the Amur region of Russia’s Far East, the project is a joint venture between SIBUR, Russia’s largest petrochemical company, holding a 60% stake, and China’s Sinopec, which owns the remaining 40%. When completed, Amur GCC will be among the world’s largest producers of base polymers, with a design capacity of 2.7 million tonnes per year—2.3 million tonnes of polyethylene and 400,000 tonnes of polypropylene.

The complex is integrated with the broader Amur gas processing and gas chemical cluster, ensuring direct feedstock supply via pipelines. Gazprom’s Amur Gas Processing Plant (Amur GPP), which processes natural gas from East Siberian fields, will supply the primary feedstock to Amur GCC: ethane (up to 2 million t/y), and LPG (propane/butane, ~1.1 million t/y).

Steam Cracker and Downstream Progress

At the heart of the complex lies its 2.3 million t/y ethylene plant, supplied and partially engineered by Linde before the German firm’s confirmed withdrawal in 2022. Linde’s contributions included delivering critical components like the 1,500-ton quench tower, transported from South Korea to the remote Amur site—a logistical triumph showcased in earlier project updates.



Quench tower delivery to AMUR GCC, Nov 2021 | Credit: Linde Engineering 

By January 2024, SIBUR released a progress video on AGCC status update as of December 2023, confirming that polyethylene (PE) and polypropylene (PP) production units were being deployed as originally planned. The footage shows equipment installation for these downstream facilities, suggesting that proprietary technologies from Western licensors—Univation (Unipol PE gas-phase plants), ChevronPhillips Chemical (PE slurry process, undefined if MarTECH Single Loop or Advanced Dual Loop), and LyondellBasell (Spheripol PP Technology)—remain integral to the project. This indicates that either licensing agreements persisted post-2022 or SIBUR/Sinopec retained rights to use the technologies despite licensors’ reduced involvement.



Amur GCC Progress Video, Jan 2024. Reactor in this screenshot is a Slurry Loop Reactor | Credit: Sibur

Licensing Uncertainties and Delays

While Linde publicly exited the project by July 2022, when part of the equipment, including the pyrolysis unit, had already been built, SIBUR and Sinopec decided to reconsider the strategy for implementing the project, redesigned it and replaced contractors and license holders for the polyethylene and polypropylene lines. To this date, the status of other Western partners remains ambiguous as public disclosures from SIBUR and Sinopec have not clarified whether CPChem, Univation, or LyondellBasell continue to provide technical support or if their pre-sanction contracts are being honored. The lack of explicit withdrawal announcements contrasts with the project’s two-year delay.



Amur GCC Progress Video, Jan 2024. Reactor in this screenshot is likely a Gas Phase Unipol PE reactor | Credit: Sibur

It is a matter of speculation if SIBUR and Sinopec may be relying on existing licenses, in-house expertise, or third-party intermediaries to proceed with the original technologies. The January 2024 video underscores that downstream unit construction aligns with initial designs, implying that the licensors’ intellectual property is still being utilized, albeit without confirmed active collaboration.

Construction began in August 2020 and mechanical completion has been delayed to 2026 (originally 2024–25). Despite licensing headwinds, the Amur GCC achieved 76% mechanical completion by mid-May 2025 with commercial polyethylene production to start by Q3 2026, polypropylene production and full operations expected to follow in 2027 (source: interfax.com).

Strategic Implications

The Amur GCC’s trajectory highlights the resilience of large-scale petrochemical projects in the face of geopolitical disruptions. While Linde’s exit created logistical and technical gaps, the continued use of Western-designed downstream technologies—whether through preserved licenses or workarounds—demonstrates SIBUR and Sinopec’s commitment to delivering a world-class facility. The complex’s success will hinge on operationalizing these units without direct licensor support, a challenge that could redefine global norms for technology transfer in sanctioned environments. For now, the Amur GCC stands as a testament to both international collaboration’s potential and its fragility in an era of shifting alliances.

#linde  #univation  #lyondellbasell  #chevronphillips  #cpchem  #sibur  #amurgcc  #sinopec 
#steamcracker  #ethyleneplant  #amur  #russia  #unipolpe  #martech  #slurryloop  #gasphasepe  #spheripol  #polyethylene  #polypropylene  #ethane  #lpg 

Polyolefin plants with technologies and capacities have been added.

#lotte #lottechemical  #malaysia  #unipolpe  #univation  #lyondellbasell  #spheripol 

The Ceyhan PP production site has been created and technologies identified and added.


#ceyhan  #turkiye  #sonatrach  #propane  #pdh  #dehydrogenation  #uop  #oleflex  #lyondellbasell  #spheripol 

Saudi Arabia, 27 Feb 2025 - Saudi International Petrochemical Company (Sipchem) and global chemical giant LyondellBasell have announced a significant partnership to explore the development of a world-scale mixed-feed cracker in Saudi Arabia, bolstered by their successful securing of feedstock allocation from the Saudi government.

The two companies have signed a memorandum of understanding (MoU) to conduct a joint feasibility study for the proposed facility, which would utilize both ethane and refinery off-gases as feedstock. This mixed-feed approach offers greater flexibility in raw material sourcing while potentially improving the economics of the operation.

The proposed cracker would be integrated with downstream units to produce a range of high-value petrochemical products, including polyethylene, polypropylene, and various specialty chemicals. Industry analysts estimate the total investment could exceed $5 billion, though the companies have not confirmed specific figures pending the feasibility study's completion.

For LyondellBasell, the partnership represents a strategic move to expand its presence in the Middle East, a region that offers competitive feedstock advantages and growing domestic markets. The company has been actively restructuring its global portfolio, seeking opportunities in regions with favorable economics while potentially divesting from higher-cost locations.

The Saudi government has strongly supported the development of domestic petrochemical capacity through initiatives like Vision 2030, which aims to reduce the country's dependence on crude oil exports by developing downstream industries, aligning with national priorities to capture more value from the country's natural resources.

If the feasibility study yields positive results, construction could begin as early as 2026, with production potentially starting by 2029. The facility would likely be located in Jubail Industrial City, where Sipchem already operates several petrochemical plants and where existing infrastructure could support the new development.

The project faces competition from similar large-scale petrochemical developments in the region, including those being pursued by Saudi Aramco and SABIC. However, industry experts believe growing global demand for petrochemical products, particularly in emerging Asian markets, provides room for multiple new facilities.

The announcement comes as part of a broader wave of petrochemical investments in Saudi Arabia and the wider Gulf region, as producers seek to capitalize on competitive feedstock costs while meeting growing global demand for plastics and other petrochemical derivatives.

#aramco  #sabic  #sipchem  #lyondellbasell  #steamcracker  #ethane  #rog  #polyethylene  #polypropylene  #saudirabia 

Multiple technologies have been identified and added.
Work in progress to add other technologies used by the complex, not yet modelled on the platform. 

#kbr  #phenolacetone  #cumene  #badger  #lyondellbasell  #spheripol  #lupotech  #isopropylbenzene  #cumene  #badger  #bisphenol  #phenol  #polycarbonate  #asahikasei  #steamcracker  #gascracker  #eoeg  #ethyleneglycol  #meg  #scientificdesign  #hostalen  #hdpe 

Polyolefin technologies, glycol process and their capacities have been identified.


#lyondellbasell  #novachemicals  #scientific  design #spheripol  #hostalen  #sclairtech  #india  #panipat  #refinery  #iocl 

Liwa Plastics Industries Complex (LIPC) has been added, the main technologies have been identified and the mass balance halfway developed.

#lummus  #lyondellbasell  #univation  #unipolpe  #spheripol  #srtsteamcracking  #ethyleneplant  #oman  #oq 

Many technologies have been identified and added:

🔹Axen's aromatic complex
🔹Sinopc's DCC and DCC-Plus
🔹Linde's steam cracking
🔹Lummus / UOP's EBOne Ethylbenzene (to be confirmed)
🔹Lummus / UOP's "Classic" Styrene Monomer
🔹 LyondellBasell's Hostalen HDPE
🔹 Lummus' Novolen PP
🔹Axens' Hyvahl
🔹KBR's ROSE (to be confirmed)

Some assumptions haven been made based on technologies reported in 2009. .

There is a lack of reported information details about what happens between the ADUs and the two FCC plants, the technologies employed in the Lube plant (which also has at least one VDU) and the fuel blending plant making 7 million tonnes of the total 10.5 million tonnes of crude oil processing capacity .

The mass balance is also not matching as far as feedstock going into the FCCs is concerned. In case of the aromatics plant, this is a suite of many technologies, with reforming, alkylation, separation, etc but no details are available excepted it is known to be from Axens (formerly HRI).

There is double counting of polypropylene capacity with PP fed into a PP compounding plant (JPP's technology).


#axens  #sinopec  #linde  #lummus  #uop  #lyondellbasell  #kbr  #jpp 

On Oct. 23, Bora LyondellBasell Petrochemical Co., Ltd. (BLYB) celebrated producing 5 million tonnes of polyolefins since its commissioning, LyondellBasell reports on Linkedin. This news triggered us into creating a model of the Panjin site with a good level of details (illustration above), although some information is still lacking, especially on specific technologies employed. BLYB, a joint venture between LYB and Jincheng Petrochemical, operates one of China’s largest polyolefin production sites in Panjin, Liaoning, with an annual capacity of 1.1 million tons of ethylene and related products.

#lyondellbasell  #jincheng  #petrochemicals  #polyolefins  #china  #blyb  #boralyndellbasell  #ethylene 

Bora LyondellBasell Petrochemical Co., Ltd. company and petrochemical site in Panjin have been added. 

#bora  #lyondellbasell  #blyb  #jincheng  #shangdong  #panjin  #petrochemical 

LyondellBasell Spherizone technology model has been updated with PFD and technology units.

#polypropylene  #spherizone  #lyondellbasell  #multizone 

LyondellBasell's Spheripol technology description has been updated.

#lyondellbasell #spheripol  #technology  #polypropylene