FISIPE Gets Harper's State-of-the-Art Carbon Fiber Processing Line Installed

Harper International has installed a full pilot scale carbon fiber (CF) process line for FISIPE, S.A., one of the leaders in specialty acrylic fibers for technical applications. Additionally, Harper and FISIPE, S.A. have developed a collaborative agreement in which the pilot process line in Lavradio, Portugal is available as an open reference and capabilities demonstration to other select Harper clients.

Harper was chosen as the primary partner for engineering, process equipment, installation supervision and startup for a complete pilot scale CF line rated for production of carbon fibers from 24k to 320k from PAN based precursor. Harper's process equipment solution incorporates their proprietary multi-flow oxidation oven, advanced LT and HT slot furnaces rated for 800°C and 1800°C respectively, surface treatment and waste gas abatement systems, and winders.

"FISIPE partnered with Harper due to their background in carbon fiber process equipment," stated José Miguel Contreiras, Commercial Manager / Board Member, FISIPE, S.A. "Harper offered to us the most credible proposition and we are extremely confident that our collaborative agreement will be mutually beneficial."

During the installation phase, Harper deployed a field team consisting of a supervisor as well as ancillary engineering and manufacturing resources to support erection and start-up activities on site. Harper worked directly with the client's contractors and internal staff for field installation of electrical and mechanical interconnect.

"At Harper, we seek to partner collaboratively with clients as they develop, refine and scale up their process technologies," commented Charles Miller, Jr., President, Harper International. "Our depth of expertise and unique ability to create solutions enables firms like FISIPE to optimize their R&D investments and achieve their goals more swiftly and successfully."

Braskem GP Recycling Campaign Makes São Paulo Greener by Collecting Over 13.5 Tons of Plastic Waste

Proving that small gestures can be transformed into great acts, the Braskem GP Recycling Campaign succeeded in its goal of encouraging São Paulo citizens to dispose of their plastic waste at special collection points.

Conducted last month in five parks in different regions of the city during the three-day-long Brazilian leg of the Formula 1 championship, the campaign collected a total of 13.5 tons of plastic waste.

In return for this positive gesture of citizenship and respect for the environment, the city of São Paulo will receive 500 items of urban furniture, including benches, flower beds and garbage cans. Plásticos Suzuki will be responsible for manufacturing the recycled plastic benches that will be donated by Braskem to the São Paulo Municipal Government on the city's anniversary, on January 25.

A partnership between Braskem, the São Paulo Municipal Government and Plastivida, the campaign also involved five cooperatives, which sorted the material collected and weighed the plastic waste: Cooperativa da Capela do Socorro, Corpore Centro, União de Itaquera, Central do Tietê and Coperviva Bem, each of which responsible for the garbage collected in their respective region. Coopercaps, another cooperative, was responsible for collecting the waste disposed of at the Interlagos Formula 1 track.

Formula 1 GP - The Braskem GP Recycling campaign, featuring Emerson Fittipaldi as spokesperson, received widespread publicity during the Brazilian leg of the Formula 1 championship, during which Braskem and Plásticos Suzuki demonstrated a mini recycling plant. According to João Gomes, Braskem's Marketing Officer, "It was a fun way of showing how items of furniture can be made from recycled plastic."

Twelve tons of plastic waste was collected at the track alone. "The combined results of the Interlagos and the park operations exceeded our expectations. In addition to collecting 43% more plastic waste than we had anticipated, the campaign had an impact on a significant number of people, which pleased us enormously," Gomes concluded.

New Modular Polyethylene Tank Stand from Assmann Corporation Offers 100% Chemical Resistance

Assmann Corporation has introduced new modular polyethylene tank stands for use with the FDO (full drain outlet) assembly. These new stands can be installed on any suitable, flat surface and elevate polyethylene tanks 12" from grade for a full drain tank without the need to pour concrete. The stands are 100% chemical resistant and are suitable for all corrosive environments.

Features of this modular tank stand include corrugated sidewalls for maximum support, interlocking dovetail joints for securing modular sections together and optional wind load anchoring points. The lightweight modular sections are easily disassembled and relocated to a different site. A wide range of color choices are also available.

Assmann has tested this stand to over 300,000 lbs. of crush force.

EPRO Awards TEFAL this Year's "Best Recycled Product" for Enjoy Kitchen Tools

EPRO (European Association of Plastics Recycling and Recovery Organisations) has awarded Enjoy Kitchen Tools, manufactured by TEFAL - SAS, France as this year's winner of "Best Recycled Product".

Following the success of the first Best Recycled Product Competition in 2009, earlier this year, EPRO invited the plastics industry across Europe to provide examples of products containing recycled plastics.

The competition aims to promote the cycle of plastics, as well as increase the request for recycled materials. Once again the competition has been a great success, over the two years the competition has lasted, we have seen over 60 entries from 13 countries. The entries were judged by a panel from across Europe, including representatives from EPRO, Plastics Europe and EuPR. The awards were presented at a key plastics industry event - Identiplast 2010, in London.

The top three places were awarded as below:

1. Enjoy Kitchen Tools, TEFAL SAS - France
2. eko84®, Retail Shopping Trolley, Keo S.r.l - Italy
3. FORMaBLOCK, Innovation in low cost construction, FORMaBLOCK - UK

Worth the effort

Hundreds of thousands of tonnes recycled plastics are used as material for new products. Sometimes the material is cheaper and sometimes the recycled material is just superior to an alternative. The competition therefore focused on several criterias: The entries had to contain at least 50 per cent recycled plastics. They also had to be made out of recycled used plastics packaging, entered the market and made sales in since 2008 and of course, it had to be manufactured in Europe.

The results of the this year competition show that global operating and well- known companies such as TEFAL recognize that recycled plastics is a valuable raw material for their products.

"The competition brings home the reality of what can be achieved when we all work together. For the consumer who makes the effort to collect their used packaging for recycling this competition provides some great examples of what can be achieved. For the industry we hope that it creates interests and confidence in the versatility and value of considering used plastics packaging as a material option for products. For all, we hope that more and more, used plastic packaging is seen as a valuable resource and not waste. We thank everyone for supporting the competition and look forward to seeing what's new in 2011" commented Eirik Oland, Head of EPRO Communication.

India: CNG supply to be extended

The Minister of State for Petroleum and Natural Gas, Shri Jitin Prasada, recently assured that Indian government is committed to providing all the support to the utilization of natural gas in transportation and that it has already sanctioned 6,335 km of pipeline, while the Petroleum and Natural Gas Regulatory Board (PNGRB) is in the process of authorizing another 5,000 km to connect various parts of the country.
The government plans to cover several cities where pipelines and CNG facilities would be rolled out in the coming years. The gaseous fuel is expected to be available in 86 cities in the next three years, 200 in the next five years, while the goal is to reach 330 cities by 2020. “India will see explosive growth in the use of natural gas driven vehicles in the next years. We are going to more than double the existing pipeline network from 11,000 km,” said PNGRB’s chairman Lalit Mansingh.

Regarding the automotive industry, manufactures are optimistic about growth thanks to the growing network of fuelling stations and pipelines. “We have launched five CNG models in limited markets of Delhi, Mumbai and Gujarat. If the volumes of natural gas supplies improve, we would like to reduce the imports of our CNG components and manufacture them here, which would reduce the cost for vehicles,” said Maruti Suzuki’s managing director and CEO, Shinzo Nakanishi, to the local newspaper The Hindu.

During the opening of NGV India 2010, at Bombay Exhibiton Centre, Jitin Prasada also said that CNG-driven two wheelers would soon see the light of day. “This along with CNG driven taxis and three wheelers would create a revolution on our roads to provide affordable, comfortable travel to the middle class, the office workers and factory employees,” he added.

It is worth mentioning that Pune has also committed to clean-burning fuels as its district administration is planning to make it “a pollution-free city,” according to the district supply officer, Pradeep Patil. In turn, Maharashtra Natural Gas Limited (MNGL) will install three more CNG stations in the Pune Municipal Corporation (PMC) area, while they want to set up 20 facilities by March.

Polysulfone Dental Device Remedies Teeth Grinding Problem

For people who are suffering from a tendency to grind their teeth while asleep, Michigan-based Grind Guard Technologies together with injection molder Maple Valley Plastics, has introduced ‘GrindGuardN’ a safe medical device for the mouth. A 3-mm-high central power bar is positioned at the middle of the mouth guard that directs pressure on the upper and lower teeth, and is said to reduce the biting and clenching intensity by up to 60%.

The transparent injection molded 0.2-mm-thick outer shell of this dental device is made of Udel® P-1700 polysulfone (PSU) resin from Solvay Advanced Polymers, which is insert molded with a polycaprolactone (PCL) thermoplastic. To customize the GrindGuardN according to your mouth, it can be placed in a microwaved water for 90-120 seconds at 130°F (54.44°C). The white colored polycaprolactone turns transparent which signifies that it is soft enough to fit easily in synchronization with the front teeth. Polycaprolactone doesn’t deform or melt even at temperature up to 171°F (77.22°C). GrindGuardN, has received clearance from the U.S. Food & Drug Administration.

Researchers Train Bacteria to Convert High Percentage of Bio-wastes into Plastic

TU Delft Researcher Jean-Paul Meijnen has 'trained' bacteria to convert all the main sugars in vegetable, fruit and garden waste efficiently into high-quality environmentally friendly products such as bioplastics. There is considerable interest in bioplastics nowadays. The technical problems associated with turning potato peel into sunglasses, or cane sugar into car bumpers, have already been solved. The current methods, however, are not very efficient: only a small percentage of the sugars can be converted into valuable products. By adapting the eating pattern of bacteria and subsequently training them, Meijnen has succeeded in converting sugars into processable materials, so that no bio-waste is wasted.

Basis for bioplastics

The favored raw materials for such processes are biological wastes left over from food production. Lignocellulose, the complex combination of lignin and cellulose present in the stalks and leaves of plants that gives them their rigidity, is such a material. Hydrolysis of lignocellulose breaks down the long sugar chains that form the backbone of this material, releasing the individual sugar molecules. These sugar molecules can be further processed by bacteria and other micro-organisms to form chemicals that can be used as the basis for bioplastics. The fruit of the plant, such as maize, can be consumed as food, while the unused waste such as lignocellulose forms the raw material for bioplastics.

Cutting the price of the process

"Unfortunately, the production of plastics from bio-wastes is still quite an expensive process, because the waste material is not fully utilized," explains Jean-Paul Meijnen. (It should be noted here that we are talking about agricultural bio-wastes in this context, not the garden waste recycled by households.) The pre-treatment of these bio-wastes leads to the production of various types of sugars such as glucose, xylose and arabinose. These three together make up about eighty per cent of the sugars in bio-waste.

The problem is that the bacteria Meijnen was working with, Pseudomonas putida S12, can only digest glucose but not xylose or arabinose. As a result, a quarter of the eighty per cent remains unused. "A logical way of reducing the cost price of bioplastics is thus to 'teach' the bacteria to digest xylose and arabinose too."

Enzymes

The xylose has to be 'prepared' before Pseudomonas putida S12 can digest it. This is done with the aid of certain enzymes. The bacteria are genetically modified by inserting specific DNA fragments in the cell; this enables them to produce enzymes that assist in the conversion of xylose into a molecule that the bacteria can deal with.

Meijnen achieved this by introducing two genes from another bacterium (E. coli) which code for two enzymes that enable xylose to be converted in a two-stage process into a molecule that P. putida S12 can digest.

Evolution

This method did work, but not very efficiently: only twenty per cent of the xylose present was digested. The modified bacteria were therefore 'trained' to digest more xylose. Meijnen did this by subjecting the bacteria to an evolutionary process, successively selecting the bacteria that showed the best performance.

"After three months of this improvement process, the bacteria could quickly digest all the xylose present in the medium. And surprisingly enough, these trained bacteria could also digest arabinose, and were thus capable of dealing with the three principal sugars in bio-wastes." Meijnen also incorporated other genes, from the bacterium Caulobacter crescentus. This procedure also proved effective and efficient from the start.

Blend

Finally, in a separate project Meijnen succeeded in modifying a strain of Pseudomonas putida S12 that had previously been modified to produce para-hydroxybenzoate (pHB), a member of the class of chemicals known as parabens that are widely used as preservatives in the cosmetics and pharmaceutical industries.

Meijnen tested the ability of these bacteria to produce pHB, a biochemical substance, from xylose and from other sources such as glucose and glycerol. He summarized his results as follows: "This strategy also proved successful, allowing us to make biochemical substances such as pHB from glucose, glycerol and xylose. In fact, the use of mixtures of glucose and xylose, or glycerol and xylose, gives better pHB production than the use of unmixed starting materials. This means that giving the bacteria pretreated bio-wastes as starting material stimulates them to make even more pHB."