Nylon6 – PET – Petrochemicals 29-08-2022

Nylon6 – PET – Petrochemicals

Nylon6 - PET - Petrochemicals

ITEM 22/08/2022 29/08/2022 +/-
Bottle grade PET chips domestic market 8,650 yuan/ton 8,900 yuan/ton +250
Bottle grade PET chips export market 1,100 $/ton 1,110 $/ton +10
Filament grade Semidull chips domestic market 6,980 yuan/ton 7,030 yuan/ton +50
Filament grade Bright chips domestic market 7,030 yuan/ton 7,080 yuan/ton +50
Pure Terephthalic Acid PTA domestic market

Nylon6 – PET – Petrochemicals

5,995 yuan/ton 6,195 yuan/ton +200
Pure Terephthalic Acid PTA export market 850 $/ton 880 $/ton +30
Monoethyleneglycol MEG domestic market 3,995 yuan/ton 3,990 yuan/ton -5
Monoethyleneglycol MEG export market 495 $/ton 490 $/ton -5
Paraxylene PX FOB  Taiwan market 1,065 $/ton 1,069 $/ton
Paraxylene PX FOB  Korea market 1,045 $/ton 1,049 $/ton +4
Paraxylene PX FOB EU market 1,200 $/ton 1,126 $/ton -74
Polyester filament POY 150D/48F domestic market 7,900 yuan/ton 7,980 yuan/ton
Recycled Polyester filament POY  domestic market 7,350 yuan/ton 7,450 yuan/ton +100
Polyester filament DTY 150D/48 F domestic market 9,300 yuan/ton 9,450 yuan/ton +150
Polyester filament FDY 68D24F 8,950 yuan/ton 9,050 yuan/ton +100
Polyester filament FDY 150D/96F domestic market 8,400 yuan/ton 8,500 yuan/ton +100
Polyester staple fiber 1.4D 38mm domestic market 7,570 yuan/ton 7,620 yuan/ton +50
Caprolactam CPL domestic market 11,750 yuan/ton 11,900 yuan/ton
Caprolactam CPL overseas  market 1,920 $/ton 1,920 $/ton
Nylon6 chips overseas  market 2,120 $/ton 2,120 $/ton
Nylon6 chips conventional spinning domestic  market 12,800 yuan/ton 12,850 yuan/ton +50
Nylon6 chips  high speed spinning domestic  market 13,450 yuan/ton 13,150 yuan/ton -300
Nylon 6.6 chips domestic  market

Nylon6 – PET – Petrochemicals

20,800 yuan/ton 21,500 yuan/ton +700
Nylon6 Filament POY 86D/24F domestic  market 15,550 yuan/ton 15,200 yuan/ton -350
Nylon6 Filament DTY 70D/24F domestic  market 18,000 yuan/ton 17,700 yuan/ton- -300
Nylon6 Filament FDY  70D/24F  17,650 yuan/ton 16,150 yuan/ton -500
Spandex 20D  domestic  market 39,500 yuan/ton 39,500 yuan/ton
Spandex 30D  domestic  market 35,000 yuan/ton 35,000 yuan/ton
Spandex 40D  domestic  market 31,500 yuan/ton 31,500 yuan/ton
Adipic Acid domestic market 9,150 yuan/ton 9,000 yuan/ton -150
Benzene domestic market 7,780 yuan/ton 7,400 yuan/ton -380
Benzene overseas  market 900 $/ton 887 $/ton -13
Ethylene South East market 920 $/ton 940 $/ton +20
Ethylene NWE  873 $/ton 786 $/ton -87
Acrylonitrile ACN  domestic market 8,800 yuan/ton 8,900 yuan/ton +100
Acrylonitrile ACN  overseas market

Nylon6 – PET – Petrochemicals

1,500 $/ton 1,500 $/tn
Acrylic staple fiber ASF  domestic market 19,000 yuan/ton 17,800 yuan/ton -1,200
Viscose Staple Fiber VSF  domestic market 14,250 yuan/ton 14,200 yuan/ton -50
PP Powder domestic market
7,330 yuan/ton 7,460 yuan/ton +130
Naphtha overseas market  689 $/ton 670 $/ton
Phenol domestic market 9,220 yuan/ton 9,360 yuan/ton +140

Nylon6 – PET – Petrochemicals

Bottle-to-bottle-recycling 29-08-2022


Nylon6 – PET – Petrochemicals 29-08-2022


Crude Oil Prices Trend 

Crude Oil Prices Trend  Polyestertime

-Mercedes taps pyrolysis oil-based polymers for new models

BASF produces materials from oil supplied by tire recycler Pyrum

Dillingen, Germany – Waste tire pyrolysis company Pyrum Innovations AG and German chemicals giant BASF SE are one step closer to ‘closing the recycling loop’ in a partnership to supply sustainable materials to automotive major Mercedes-Benz AG.

As part of the collaboration, BASF is using Pyrum’s pyrolysis oil from recycled tires in combination with biomethane from agricultural waste to produce new plastics for car components, said the end-of-life-tire (ELT) processor 24 Aug.

Using the two raw materials creates ‘a completely new plastic that has the same properties as new plastic made from fossil raw materials,’ Pyrum added.

The plastic is certified according to the so-called “mass balance method”: An independent certification confirms the use of secondary materials in a product.

This year, the EQE and S-Class will be the first production models to have arched door handles using the plastic.  Bottle-to-bottle-recycling

“We are rethinking the composition of all the materials in our vehicles,” said Markus Schaefer, chief technology officer Mercedes‑Benz Group in a separate statement.

“We anticipate being able to chemically recycle several hundred tonnes of scrap tires from Mercedes-Benz vehicles every year and use the resulting plastic in our new vehicles,” he added.

Commenting on the partnership, Pyrum CEO Pascal Klein said the use of the oil as the basis for the manufacture of Mercedes-Benz vehicle components showed the “high quality the product.”

Pyrum and BASF have been collaborating since September 2020, when the German chemicals major became one of the largest investors in the recycler.

At the time, BASF said it would uptake most of the pyrolysis oil and process it into new chemical products via a mass balance approach within its ChemCycling project.


-Bottle-to-bottle recycling in Bangladesh

Dhaka-based food manufacturer Akij Food and Beverage (AFBL), a member of Akij Venture Group, is producing its own rPET for the company’s brand beverage bottles on a bottle-to-bottle recycling line from Starlinger.

AFBL decided to start bottle-to-bottle recycling to reduce the growing environmental burden, as well as for economic reasons. “On a competitive market, recycling is the best solution to improve environmental conditions”, said Mohammed Sadikur Rahaman, Plant Operations Director at AFBL. “If you look inside our state-of-the-art recycling facility, you see mountains of used plastic bottles which were thrown away after being used once and became a threat for our environment. Now, each year billions of them will be turned into PET flakes and pellets in order to become new bottles.” Bottle-to-bottle-recycling

The Starlinger Recostar PET 165 HC iV+ installed at AFBL’s production site in Dhaka has taken up operation beginning of April 2022. It turns PET flakes into food-contact rPET pellets and has a production capacity of up to 1,800 kg/h. The recycling process starts with a two-stage heating and drying phase of the washed flakes for optimum preparation for the extrusion process. After extrusion, filtering and pelletising, the produced rPET pellets undergo vacuum treatment in the downstream SSP reactor. This increases the intrinsic viscosity (IV) and effectively decontaminates the pellets so that they can be used for food-contact applications. AFBL currently includes a share of 20 % to 40 % of recycled PET in its beverage bottles for water and carbonated soft drinks.

AFBL sources the used bottles from various vendors on the local market. To achieve the high-quality rPET needed for food-contact applications, the input material must be thoroughly washed to effectively remove foreign substances such as polyolefins, metals, dust and dirt, and separated according to its quality. During the extrusion process, the Starlinger high-vacuum degassing and melt filtration processes ensure that the melt is free from aromatic substances and volatile contaminants that may cause quality impacts (bubbles or smells) in the produced PET regranulate. Bottle-to-bottle-recycling

Bottle-to-bottle recycling in Bangladesh

-Novel non-combustion ammonia cracking reactor to be established in South Korea

A ‘fully electric chemical reactor’ to produce clean hydrogen is set to be developed in South Korea following a new joint development agreement between Syzygy Plasmonics, Lotte Chemical, Lotte Fine Chemical, and Sumitomo Corporation of Americas (SCOA).

The novel technology will be used to extract hydrogen from Lotte Chemical’s planned imports of green ammonia, generating an estimated 1.2 million tonnes of hydrogen per year, domestically by 2030. Bottle-to-bottle-recycling

Using Syzygy’s reactor technology that uses light from ultra-high-efficiency LEDs to power chemical reactions, removing the need for heat from burning fuel, Lotte will dramatically cut carbon emissions from the ammonia cracking process.

With installation of the reactor planned for Lotte Chemical’s HQ, it comes as the first commercial-scale deployment of the Syzygy technology. SCOA first invested in the technology in 2019 and has subsequently worked with Syzygy to see it deployed.

Trevor Best, CEO of Syzygy, said, “Simply improving existing tech isn’t enough to reach the world’s decarbonisation goals. Stopping climate change will require industries to reimagine what is possible.

“Our technology expands the accepted paradigms of chemical engineering. We have demonstrated the ability to replace heat from combustion with renewable electricity in the manufacture of foundational chemicals like hydrogen.

“LOTTE Chemical HQ, SCOA, and Sumitomo Corporation Korea are taking a profound step forward, demonstrating through actions their commitment to help decarbonise Korea. Syzygy is honoured to be a part of their forward-thinking efforts in fighting climate change.”  Bottle-to-bottle-recycling


Constantia Flexibles to acquire FFP Packaging Solutions

Constantia Flexibles has signed an agreement to acquire 100 % of FFP Packaging Solutions, a leading player for sustainable, flexible packaging in the consumer market from Northampton, UK. The acquisition earns Constantia Flexibles the first consumer plant in the UK and is an addition to its portfolio.

“The acquisition aligns well with our Vision 2025 growth strategy of investing in competitive businesses with potential for future growth. FFP Packaging Solutions joining the Constantia Flexibles Group will expand our overall market position. Its significant experience and credibility allow for strong relationships across the UK food industry. We will be working with the existing management team to continue driving the revolution of sustainable flexible packaging in the UK and beyond,” explains Pim Vervaat (picture), CEO of Constantia Flexibles. Bottle-to-bottle-recycling

FFP Packaging Solutions is established as a leading innovator in flexible plastic packaging. Founded in 1967, the company is the expert for recyclable laminates offering flow wraps, lidding films, and pre-made pouches already today generates over 80% of its sales in sustainable packaging. FFP Packaging Solutions prevails as a long-term trusted partner for major food brands & UK retailers. With over 100 employees, the business operates from its headquarters in Northampton, UK.


-New engineering platform takes commercial enzymatic plastic recycling a step forward

Researchers from the Manchester Institute of Biotechnology (MIB) have developed a new enzyme engineering platform aimed at improving plastic degrading enzymes through directed evolution.

To illustrate the utility of their platform, they have engineered an enzyme that can successfully degrade poly(ethylene) terephthalate (PET), the plastic commonly used in plastic bottles. Bottle-to-bottle-recycling

MIB says that, in recent years, the enzymatic recycling of plastics has emerged as “an attractive and environmentally friendly strategy to help alleviate the problems associated with plastic waste”.

Although there are a number of existing methods for recycling plastics, enzymes could potentially offer a more “cost-effective and energy efficient alternative”, MIB says.

It also says they could be used to selectively breakdown specific components of mixed plastic waste streams that are currently difficult to recycle using existing technologies.

There are considerable hurdles that need to be overcome for enzymatic plastic recycling to be used widely on a commercial scale, MIB says.

One challenge is that natural enzymes with the ability to break down plastics typically are less effective and are unstable under the conditions needed for an industrial-scale process.

To address these limitations, in a paper released in Nature Catalysis, researchers from The University of Manchester have reported a new enzyme engineering platform that can quickly improve the properties of plastic degrading enzymes to help make them more suitable for plastic recycling at large scales.

Their integrated and automated platform can successfully assess the plastic degradation ability of around 1000 enzyme variants per day. Bottle-to-bottle-recycling

New engineering platform takes commercial enzymatic plastic recycling a step forward

-Researchers propose new aluminum–sulfur battery with molten-salt electrolyte; low-cost, rechargeable, fire-resistant, recyclable

An international team of researchers led by Quanguan Pang at Peking University and Donald Sadoway at MIT reports a bidirectional, rapidly charging aluminum–chalcogen battery operating with a molten-salt electrolyte composed of NaCl–KCl–AlCl3. This differs from other aluminum batteries in the choice of a positive elemental-chalcogen electrode as opposed to various low-capacity compound formulations and in the choice of a molten-salt electrolyte as opposed to room-temperature ionic liquids that induce high polarization.

The multi-step conversion pathway between aluminium and chalcogen allows rapid charging at up to 200C, and the battery endures hundreds of cycles at very high charging rates without aluminum dendrite formation. Bottle-to-bottle-recycling

A paper on the work is published in Nature.

Importantly for scalability, the cell-level cost of the aluminum–sulfur battery is projected to be less than one-sixth that of current lithium-ion technologies. Composed of earth-abundant elements that can be ethically sourced and operated at moderately elevated temperatures just above the boiling point of water, this chemistry has all the requisites of a low-cost, rechargeable, fire-resistant, recyclable battery.

I wanted to invent something that was better, much better, than lithium-ion batteries for small-scale stationary storage, and ultimately for automotive.

—Donald Sadoway

The researchers showed that the charging rate was highly dependent on the working temperature, with 110 degrees Celsius (230 degrees Fahrenheit) showing 25 times faster rates than 25 C (77 F).

The molten salt the team chose as an electrolyte simply because of its low melting point turned out to have a fortuitous advantage. One of the biggest problems in battery reliability is the formation of dendrites, which are narrow spikes of metal that build up on one electrode and eventually grow across to contact the other electrode, causing a short-circuit and hampering efficiency. But this particular salt, it happens, is very good at preventing that malfunction. Bottle-to-bottle-recycling

The battery requires no external heat source to maintain its operating temperature. The heat is naturally produced electrochemically by the charging and discharging of the battery.

Researchers propose new aluminum–sulfur battery with molten-salt electrolyte; low-cost, rechargeable, fire-resistant, recyclable

-A world without plastics? Wrong question!

Images of mountains of plastic waste polarise the debate regarding how to solve the problem. Calls are frequently made for a complete ban on plastics. But upon closer inspection, it becomes apparent that a demand of this kind doesn’t make any sense, in particular as regards sustainability..

This text would never have been produced in a world without plastics. It was written using a PC keyboard made of plastic and in front of a monitor with housing that’s likewise made of plastic. OK, maybe alternative means of disseminating this text would have been found in a plastic-free world – for example, with an entirely metal typewriter found at a flea market and a spirit duplicator, likewise made entirely of metal and bought at an antiques store. The printed sheets would then have been put in envelopes, addressed, taken to the post office and sent. But at this point at the latest, your personal control over the use of plastics would end, as the letters would end up in a stackable box made of plastic at the sub-post office.  Bottle-to-bottle-recycling

Freeing the world of plastics is a vision that’s often circulated. It is, however, highly doubtful as to whether the world could do without plastics so easily. It is not only in the electronics industry that the material appears to have become indispensable – the same can be said for modern new builds, means of transport and, not least, the field of medicine. It’s hard to imagine hygiene and protection against infection without disposable syringes, disposable gloves, surgical masks and sterile packaging for dressing materials.

There are reasons why so many different areas of life are difficult to imagine without plastics. The material can take on many shapes, from ultrathin films to high-strength parts for an aircraft fuselage. It is lighter than the alternative materials while offering comparable stability, can be moulded using relatively little energy and lends itself to, for example, hygienically packaging foods to make them last longer.

The handling of the material is the problem

It’s worth taking another look at the question in the title. Before we look for ways in which to free the world of plastics, we should consider whether such a call even makes sense. It doesn’t, as demonstrated by the examples above. The notion that plastics are a problem is influenced by images of the uncontrolled disposal of waste by the consumer society. It is true that plastics which end up in the environment remain there for a long time and are broken down into smaller and smaller particles. It’s therefore not the material that’s the problem, but how it is handled.

Sustainability experts likewise say we should critically question the alternatives to plastic. Glass bottles as a substitute for PET bottles have specific disadvantages. Glass only becomes mouldable from a temperature of at least 1,300 degrees Celsius and therefore requires significantly more energy for its production than PET, which can be worked from a temperature of around 260 degrees.



Titanium-dioxide – Capro-PA6 27-08-2022