OQ Chemicals announces further Americas price hike for oxo intermediates

MOSCOW (MRC) -- OQ Chemicals (Monheim am Rhein, Germany) says it will increase prices for several of its oxo alcohol and oxo acetate ester products in the Americas with immediate effect or as contracts allow, according to Chemweek.

The oxo intermediates price hike is due to strong demand and increasing raw material costs, it says. The company had previously announced price increases in the Americas for the same products in both January and February, and on 26 January further announced sales control due to increased demand and shortage of supply for its US oxo intermediate products produced at its Bay City, Texas, site.

OQ has increased the price of 2-ethylhexanol (2-EH) by USD0.17/lb in North America and Mexico and by USD375/metric ton in South America. The prices of n-butanol and isobutanol have both been raised by USD0.15/lb in North America and Mexico, and by USD330/metric ton in South America, while n-butyl acetate and isobutyl acetate have both increased by USD0.10/lb in North America and Mexico, and by USD220/metric ton in South America.

As MRC wrote before, in September 2020, OQ Chemicals entered into an agreement to license its advanced proprietary technology for the production of ethylene and propylene derivatives to Duqm Refinery and Petrochemicals Industries Company (DRPIC) in Oman. DRPIC, a joint venture between Oman Oil Company and Kuwait International Oil Company, is a planned grassroots petrochemical complex at Duqm, Oman. In all, DRPIC awarded twelve license packages to international licensors.

Ethylene and propylene are feedstocks for producing polyethylene (PE) and polypropylene (PP).

According to MRC's ScanPlast report, Russia's estimated PE consumption totalled 2,220,640 tonnes in 2020, up by 2% year on year. Only shipments of low density polyethylene (LDPE) and high density polyethylene (HDPE) increased. At the same time, polypropylene (PP) shipments to the Russian market reached 1 240,000 tonnes in 2020 (calculated using the formula: production, minus exports, plus imports, exluding producers' inventories as of 1 January, 2020).

OQ Chemicals, formerly Oxea, is a global manufacturer of oxo intermediates and oxo derivatives, such as alcohols, polyols, carboxylic acids, specialty esters, and amines. These products are used for the production of high-quality coatings, lubricants, cosmetics and pharmaceutical products, flavours and fragrances, printing inks and plastics. OQ Chemicals is part of OQ, an integrated energy company that delivers sustainability and business excellence. OQ operates in 16 countries and covers the entire value chain from exploration and production to the marketing and distribution of its products.
MRC

BASF and Siemens Energy to partner on carbon management

MOSCOW (MRC) -- As part of a strategic partnership, BASF and Siemens Energy plan to accelerate commercial implementation of new technologies designed to lower greenhouse gas emissions, as per BASF's press release.

By combining BASF’s technological expertise with Siemens Energy’s innovative product and services portfolio, BASF aims to extend its leading role in lowering CO2 emissions in chemical production. Several pilot projects at its Ludwigshafen site are under discussion. BASF’s headquarters is one of the largest chemical production sites in the world.

Possible pilot projects include the construction of a PEM (proton exchange membrane) electrolyzer for hydrogen production with an output of 50 megawatts with the possibility of modular capacity expansions and the installation of a high-temperature 50 megawatts thermal heat pump for generating process steam from waste heat in a production plant. In addition, a modernization of the power grid at the Ludwigshafen site using digital and CO2-optimized products from Siemens Energy is being evaluated. Furthermore, a study is underway to assess the potential for common system and catalytic converter development in an effort, to boost the efficiency of electrolysis plants (PEM electrolysis) and for collaboration in generating electricity from wind energy.

Dr. Christian Bruch, Chief Executive Officer of Siemens Energy AG: “BASF is in a leading position in the chemical industry and is a pioneer in the area of innovation for climate-compatible production of chemicals. Numerous future technologies are still at an early stage of development. By joining forces with BASF, we want to exploit the experience gained in pilot projects as a basis for implementation of new technologies and concepts and thus play an active role in shaping the energy transition in the process industry. Our strategic objective, in our role as a reliable and experienced partner for all types of energy systems, is to help address the growing demand for goods and services and at the same time contribute towards achieving the climate protection targets on our path to a more sustainable world.”

Dr. Martin Brudermuller, Chairman of the Board of Executive Directors of BASF SE: “By cooperating with Siemens Energy, we stand to benefit from the expertise of a first-class partner for implementing our carbon management, a partner with whom we can accomplish projects of a commercial scale. At BASF, we want to develop and implement new low-CO2 technologies as quickly as possible. If we want to use such technologies on a large scale, we will need appropriate regulatory framework conditions and targeted support. We need renewable electricity in large quantities for this, and we need it at competitive prices.”

BASF has sought further reduction of greenhouse gas emissions within the scope of its Carbon Management since 2018. Until the year 2030, the absolute level of BASF’s emissions is targeted not to exceed that of 2018. With a planned substantial increase in production volumes, this means a further reduction of the emission intensity by around 30% in this period. In tandem with the availability of newly developed technologies and the increased use of renewable energies, BASF also aims to further reduce its emissions in absolute terms beyond the year 2030. This will lead to a significant increase in BASF’s demand for electricity from renewable sources.

BASF and Siemens Energy have signed a memorandum of understanding for their strategic partnership, which will focus above all on supporting the chemical company in achieving its ambitious climate targets. For Siemens Energy, the partnership represents a further key step toward pursuing its strategic goals, namely low-emission or emission-free generation of electricity and heat, transmission and storage of electricity, a smaller carbon footprint and lower energy consumption in industrial processes as well as shaping a sustainable hydrogen economy.

BASF and Siemens Energy will strive to study the pilot projects identified for technical and commercial feasibility as soon as possible in order to be able to reliably quantify the investments needed and to launch the implementation of the pilot projects within the scope of the currently prevailing framework conditions.

As MRC reported earlier, BASF said in late January, 2021, that its 420,000-metric ton/year steam cracker in Ludwigshafen, Germany was continuously running and had not caused any interruption of supply to its customers. Earlier, several media outlets reported that unscheduled flaring started on 13 January at the northern part of the Ludwigshafen site and was expected to last until 17 January and that an unspecified unit was shut, which "was not the case", as per the company's letter received by MRC.

Ethylene and propylene are feedstocks for producing polyethylene (PE) and polypropylene (PP).

According to MRC's ScanPlast report, Russia's estimated PE consumption totalled 2,220,640 tonnes in 2020, up by 2% year on year. Only shipments of low density polyethylene (LDPE) and high density polyethylene (HDPE) increased. At the same time, polypropylene (PP) shipments to the Russian market reached 1 240,000 tonnes in 2020 (calculated using the formula: production, minus exports, plus imports, exluding producers' inventories as of 1 January, 2020).

BASF is the leading chemical company. It produces a wide range of chemicals, for example solvents, amines, resins, glues, electronic-grade chemicals, industrial gases, basic petrochemicals and inorganic chemicals. The most important customers for this segment are the pharmaceutical, construction, textile and automotive industries.
MRC

Venezuela oil exports sink to 1940 level

MOSCOW (MRC) -- Pressured by strict U.S. sanctions, Venezuela's oil exports plunged by 376,500 barrels per day (bpd) in 2020, according to Refinitiv Eikon data and internal documents from state-run PDVSA, financially squeezing President Nicolas Maduro, said Hydrocarbonprocessing.

The administration of U.S. President Donald Trump also put curbs on PDVSA's main trading partners, the owners of tankers still transporting Venezuelan oil and on fuel supply to the gasoline-thirsty nation.

The punishment, aimed to oust Maduro after his 2018 re-election was called a sham by most Western nations, has led PDVSA to pursue new customers, rely on mostly unknown intermediaries to resell its oil and deepen ties with Iran, another country under U.S. sanctions.

Venezuela's exports of crude and refined products fell 37.5% in 2020 to 626,534 bpd, the lowest in 77 years. The decrease was even larger for fuel imports, which fell 51% compared with 2019, to 83,780 bpd, according to the data.

The drop in the crude oil offer was several times that of the global market, which fell about 9% last year from COVID-19 constraints. PDVSA did not reply to a request for comment.

As per MRC, China’s refineries posted record throughput in 2020, processing 3% more crude oil than a year ago, as they took advantage of low prices and healthy margins on a quick rebound in domestic fuel demand from the coronavirus pandemic. Annual throughput stood at 674.41 milion tons in 2020, or about 13.45 million barrels per day, up roughly 410,000 bpd from 2019, data from the National Bureau of Statistics showed.

As MRC informed earlier, in late December 2019, Zhejiang Petrochemical Co Ltd started up its ethylene cracker. Based in Zhejiang, China, the cracker is able to produce 1.4 million tons/year of ethylene.

Ethylene and propylene are feedstocks for producing polyethylene (PE) and polypropylene (PP).

According to MRC's ScanPlast report, Russia's estimated PE consumption totalled 2,220,640 tonnes in 2020, up by 2% year on year. Only shipments of low density polyethylene (LDPE) and high density polyethylene (HDPE) increased. At the same time, polypropylene (PP) shipments to the Russian market reached 1 240,000 tonnes in 2020 (calculated using the formula: production, minus exports, plus imports, exluding producers' inventories as of 1 January, 2020).
MRC

Saudi Sipchem restarts PP and PE plants in Jubail after maintenance

MOSCOW (MRC) -- Sahara International Chemical (Sipchem) has restarted its polypropylene (PP) and low density polyethylene (LDPE) plants in Jubail after completing the maintenance works, reported Chemweek.

The turnarounds were scheduled to begin on 1 February, 2021, and were expected to last during approximately six days.

The weeklong turnaround took place at the 200,000 tons/year PP unit and the 200,000 tons/year LDPE unit.

As MRC informed earlier, Sipchem is planning to mothball the Polybutylene Terephthalate (PBT) plant, owned by its affiliate, Sipchem Chemical Co., and Ethylene Vinyl Acetate (EVA) Film plant that is owned by affiliate firm, Saudi Specialized Products Co. Steps to implement the decision are underway, Sipchem said in a statement to Tadawul, adding that the suspension of both plants will start on Jan. 1, 2021, until further notice. The company expects a positive financial impact starting from Q1 2021 results.

According to MRC's ScanPlast report, Russia's estimated PE consumption totalled 2,220,640 tonnes in 2020, up by 2% year on year. Only shipments of low density polyethylene (LDPE) and high density polyethylene (HDPE) increased. At the same time, polypropylene (PP) shipments to the Russian market reached 1 240,000 tonnes in 2020 (calculated using the formula: production, minus exports, plus imports, excluding producers' inventories as of 1 January, 2020).
MRC

Solvay and Leonardo launch lab to develop material for planes

MOSCOW (MRC) -- Solvay and Leonardo announced the launch of a joint research lab dedicated to the development of novel composite materials and production processes critical for the future of the aerospace industry, said the company.

This collaboration represents an important milestone in enabling a step-change in composite part manufacture and in reducing environmental impacts. The Solvay Leonardo Joint Lab will focus on thermoplastic “engineered materials” and in particular on welding and automatic lamination (in-situ consolidation) of complex and large aerospace structures with the goal of maximising product properties, increasing part production efficiency and extending the product life cycle.

The focus is on thermoplastic composites as they offer unique benefits to users such as lightweighting for more fuel efficient aircraft and they do not require autoclave for part consolidation thus enabling the development of much more sustainable production lines. Leonardo and Solvay believe that this agreement will be the foundation for further platform collaboration on short and mid-term applications in aerospace and beyond.

"This collaboration is in line with the G.R.O.W. strategy of Solvay to strengthen our leadership position as supplier of innovative composite materials for aerospace and other markets” shared Nicolas Cudre-Mauroux, Solvay Chief Technology and Innovation Officer. “We believe that the partnership with Leonardo will boost our ability to develop breakthrough thermoplastic composite solutions and substantially increase their adoption in aerospace, contributing to reducing fuel consumption and CO2 emissions".

"This collaboration with Solvay is a significant step in research on advanced materials, which are part of the R&D programs to be developed by the Leonardo Labs.” underlines Roberto Cingolani, Leonardo’s Chief Technology and Innovation Officer. The research area, central to Leonardo, is a key factor of competitiveness, and it will make it possible to improve the performance and safety of our products, to expand its potential, with a direct return on the environmental impact and consumption of resources, boosting a circular and efficient production system".

As per MRC, Solvay says it has accelerated changes that form part of the company’s G.R.O.W. strategy, announced at the end of 2019, due to the “new economic reality linked to COVID-19”.

Ethylene and propylene are feedstocks for producing polyethylene (PE) and polypropylene (PP).

According to MRC's DataScope report, PE imports to Russia decreased in January-November 2020 by 17% year on year and reached 569,900 tonnes. High density polyethylene (HDPE) accounted for the greatest reduction in imports. At the same time, PP imports into Russia increased by 21% year on year to about 202,000 tonnes in the first eleven months of 2020. Propylene homopolymer (homopolymer PP) accounted for the main increase in imports.

Solvay is a science company whose technologies bring benefits to many aspects of daily life. With more than 24,100 employees in 64 countries, Solvay bonds people, ideas and elements to reinvent progress. The Group seeks to create sustainable shared value for all, notably through its Solvay One Planet plan crafted around three pillars: protecting the climate, preserving resources and fostering better life. The Group’s innovative solutions contribute to safer, cleaner, and more sustainable products found in homes, food and consumer goods, planes, cars, batteries, smart devices, health care applications, water and air purification systems. Founded in 1863, Solvay today ranks among the world’s top three companies for the vast majority of its activities and delivered net sales of EUR10.2 billion in 2019. Solvay is listed on Euronext Brussels (SOLB) and Paris and in the United States, where its shares (SOLVY) are traded through a Level I ADR program.

MRC