Have you heard? Nalgene is phasing out their polycarbonate Lexan bottles (# 7) made with bisphenol A (BPA). This may have something to do with the Canadian government's decision today to label BPA a toxic chemical. For the full story, click here.
In fact, there are several types of plastic - used for food storage and preparation - with proven health risks. When you're at the store, just look for the recycling number on the container's underside. Here's a shopping guide:
Good: # 2 High density polyethylene (HDPE), # 4 Low density polyethylene (LDPE), # 5 Polypropylene (PP)
Bad: # 3 Polyvinyl chloride (PVC), # 6 Polystyrene (PS), # 7 Polycarbonate (Other)
If you want to know more about the health risks posed by each of the "bad" plastics listed above, click here.
Of course, you may prefer to avoid plastic altogether. Glass and ceramic containers are safe and microwavable. The other, more altruistic reason to avoid plastic is that you'd be saving the environment. After all, most of the plastic waste collected by recycling companies is actually buried or burned, often in third world countries. Click here to learn why.
Friday, April 18, 2008
Nalgene bottles unsafe
Saturday, March 01, 2008
Thursday, February 28, 2008
About-face down under
Here's a blurb titled "About-Face Down Under," which I found in the March/April Sierra Magazine. Paul Rauber writes:
It was the world's first major election driven by global warming. Australia's November 24, 2007 vote turned into a referendum on climate change, thanks to the country's devastating six-year drought. It's considered the worst in a thousand years and threatens to shut down farming in the nation's breadbasket, the Murray-Darling River basin. Even drier times may be coming: Climate scientists forecast inland temperatures 7 to 9 degrees hotter by 2070.
The specter of global warming spooked the Australian electorate. Unfortunately for then prime minister John Howard, he was the only leader of an industrialized nation to join President George W. Bush in refusing to sign the Kyoto Protocol. (Howard's response to the drought was "Pray for rain.") The economic growth for which he took credit was due in large part to the export of Australian coal to ravenous Indian power plants, and in the decade leading up to 2005, his compatriots emitted more greenhouse gases per capita than any in the world.
But Australians are having second thoughts. Last March, Sydney shut off its lights for an hour to show its concern, and last September, Al Gore toured the country promoting his movie An Inconvenient Truth. Howard refused to meet with him, saying, "I don't take policy advice from films."
Weeks later, Gore was calling on Labor Party leader Kevin Rudd to congratulate him on his sweeping victory. Rudd's party committed to a 60 percent reduction in Australian carbon dioxide emissions from 2000 levels by 2050, and among his first official acts as prime minister was traveling to Bali for the United Nations Climate Change Conference and signing the Kyoto treaty.
Go to the Australian Prime Minister's website to see his other initiatives. Hopefully, the American presidential elections will reflect a similar sea change in public opinion. And I suspect they might. Both senators Obama and McCain (my choices from the start of primary season!) believe in the reality of climate change.
It is interesting to note, though, that their solutions differ. McCain is vague, and says he wants to "limit carbon emissions by harnessing market forces," while Obama is more aggressive. He wants to improve energy efficiency 50% by 2030 and cut carbon emissions 80% by 2050. This is one reason why I've voting Democrat. Republicans just aren't stepping up to the plate.
Saturday, January 19, 2008
Environmental Action Plan Proposal
Presbyterian Church in Sudbury
Go Green Committee
January 2008
Caring for the Earth is a biblical mandate and we have a moral obligation to take concrete steps to reduce, reuse, and recycle. The mission of the Go Green Committee is to educate and advocate for the environment. Current efforts include increasing energy efficiency in our building, stepping up recycling efforts, promoting environmental stewardship in church publications, and organizing special eco-friendly events for our congregation and the Sudbury community at large. For too long we have ignored the effects of wastefulness and inefficiency. This proposal outlines some of our immediate concerns.
REDUCE
Energy Audit
In order to save money and reduce our carbon footprint, we are working to increase our church building’s energy efficiency. An energy audit is the first step to assess how much energy we consume and to evaluate what measures we can take to make our building more energy efficient. We received the following email from Keyspan:
Thank you for your recent request for an energy analysis from the “Gas Efficiency Experts” program. The program offers incentives for a variety of improvements which can help your business save money and protect our environment. The energy analysis is an important first step towards that objective.
One of our “Efficiency Experts” will contact you within the next 30 days to arrange a time and date for the energy analysis. If you have any preferences or restrictions on when the visit can be made, please let us know at that time, so that we can accommodate your request.
To get the full benefit from the visit, it will be helpful if you can accompany our auditor during the visit as much as possible. It will also be helpful if you have a copy of a recent gas bill available. In preparation for the visit, please feel free to review the program information and incentive applications available on the website listed below.
If you have any questions, please feel free to contact the program at one of the contacts listed below. Please reference your Customer Number (071102) when contacting the program. We look forward to serving you.
“Gas Efficiency Experts”
Phone: (800) 843-3636
Fax: (401) 784-3710
Email: save@keyspanbusiness.com
Website: www.keyspansaves.com
REUSE
Dishwasher
We have traditionally used styrofoam food and beverage containers for the Coffee Hour and other special occasions. Although styrofoam is inexpensive, members of the congregation have questioned its use as a disposable product. Styrofoam contributes to landfill pileups (25% of America’s landfill waste by volume) and, unlike paper, stryofoam is not biodegradable or recyclable. It is also worth noting that although styrofoam is a good insulator, two of its ingredients, benzene and styrene, are toxic chemicals. According to OSHA (Occupational Safety and Health Administration), “The principal health effects due to styrene exposure involve the central nervous system. These effects include subjective complaints of headache, fatigue, dizziness, confusion, drowsiness, malaise, difficulty in concentrating, and a feeling of intoxication.” The International Agency for Research on Cancer (IARC) has also determined that styrene is a possible human carcinogen.
In light of this information, we need to explore other options. In the interim, we’ve decided to use up the styrofoam cups we have and then begin using disposable paper cups. The most sensible long-term choice is to purchase reusable ceramic mugs. Several members of our congregation have generously volunteered to buy the mugs. Unfortunately, the church doesn’t have a dishwasher in the kitchen. In order to accommodate functions of 80-200 people, we need a dishwasher that is efficient and fast. According to John Thies, our septic system would not be overloaded by the installation of a dishwasher; we believe a low-flow dishwasher is still preferable for the sake of water conservation.
Our research revealed that the best option for our church is the Jackson Avenger HT, a stainless steel industrial dishwasher that runs a two-minute automatic cycle and uses 1.1 gallons (4.2 liters) of water per rack. The Jackson Avenger HT uses regular dishwashing powder or liquid, so we do not expect it to present a problem for our septic system.
As you will see in the attached documentation, the Jackson Avenger HT is a commercial-strength machine of the highest quality and the cost is considerable. One Framingham distributor, KCR, quoted us $3,900.00 for the machine, which includes freight but not installation. We need to research the cost of installation. We also need two permits from the Sudbury Building Department – one for plumbing ($55) and one for wiring ($30).
The dishwasher is the key to solving our waste issues in the kitchen. It is absolutely the biggest “green” contribution we can make right now in the church. If we could find funding, this would be a major victory.
RECYCLE
Recycling bins
To preserve our natural resources, we must divert recyclable products (paper and mixed) from the wastebin. The only way to do that is to create a recycling system. The church’s only paper recycling bins are located in the office. Not surprisingly, church members who bring their bulletins downstairs after the service simply throw them in the trash because there are no recycling bins in the fellowship hall.
Our waste disposal company, Allied Waste, picks up recycling every Thursday - paper one week, mixed glass-plastic-aluminum the next week. Unfortunately, we have only been using the paper recycling service. All other recycling we've treated as trash. This is a habit worth changing.
We would like to purchase five clearly-marked upright indoor bins, for quick disposal after coffee hour. Slim Jim bins cost about $50 each, and we need three for the Fellowship Hall and two for the church office. Plus we need two lids, at $40 each. That’s $330 total. We can find the 23-gallon Slim Jim bins at stores like Staples and Office Depot, but we won't find lids. Click here.
We will need to write guidelines for the bins' usage in the Fellowship Hall. We need a system that is easily learned and implemented; mixed recycling (aluminum, plastic, glass) must be rinsed before being placed outside.
We should also return at least one outdoor trash bin and replace it with several open outdoor recycling bins (for pickup). Allied Waste offers these bins for $7.50 each. Gaiam Living offers a Recycling Cart that would be perfect for stacking the bins.
Here’s how the company describes its product:
No more sorting through headed-up piles of recycling in disintegrating cardboard boxes. The efficient, space-saving cart is rust-resistant and can be height-adjusted to have two or three tiers. The strong, tubular steel frame mounts on a wheeled base to make rolling to the curb easy. Three large-capacity plastic bins (sold separately) securely hang with sturdy metal hooks. Cart is 62""H x 19""W x 17 1/2 ""D. 9 lbs. Bins are 13""H x 23 1/2 ""W x 16""D. 2.5 lbs.
Super-Earth discovered
Last April, a Swiss observatory made an amazing find: Gliese 581C, an extrasolar planet with a livable temperature. We've known for 10 years that there are planets outside our solar system, but this planet is something new.
Photo credit
To give you some perspective, here are the average temperatures of our nearest and dearest planets:
Mercury: 290 F. Venus: 452 F. Earth: 56 F. Mars: -81 F. Jupiter: -238 F.
In comparison, Gliese 581C has an average temperature of 104 F. That's hot, but livable.
So why do we talk of colonizing our barren moon? Why keep sending probes to Mercury and Mars if the only livable planet (that we know of) is outside our solar system?
Here's why: Gliese 581C is 24 light years away. In other words, 24 years at lightspeed (or 10,000 years by current rocket technology). And for all we know the planet was destroyed 24 years ago.
It's fun to imagine, though. Assuming, we find a way to travel much faster and reach the planet within a human lifespan or two, what would it be like to live on Gliese 581C? Click here to find out.
Bottom line: There's no such thing as a replacement Earth.
Tuesday, July 17, 2007
Why Modify Genes?
Genetic engineering is no longer science fiction. The world's most profitable seller of genetically modified organisms (GMOs), America's own Monsanto, specifically engineers seeds to tolerate its herbicide. Are herbicide-tolerant plants more productive? A study by Charles Benbrook the former director of the Board on Agriculture at the National Academy of Sciences, says no. In more than 8,200 field trials, Monsanto’s “Roundup Ready” (RR) seeds produced fewer bushels of soybeans than similar unmodified varieties. Then why do farmers keep buying Monsanto’s patented RR seeds? For the same reason homeowners use Roundup on their lawns rather than pulling weeds by hand. It's easier.
Did you know that the largest user of the herbicide Roundup is the U.S. Government? That’s right. Each year we spray truckloads of the herbicide over the northern countries of South America in an effort to discourage cultivation of the coca plant. This indiscriminant drug-fighting effort is called Plan Colombia. Google it for yourself. You may also find an article about our not-so-precise use of the herbicide (also known as “Agent Orange”) during the Vietnam War.
Now, what happens when the company that sells the patented GM seeds also sells the patented herbicide? It makes lots of money, of course. In 2005, Monsanto's net sales totaled $2.20 billion (MSNBC). And Monsanto continues to make a killing (forgive the pun) as it buys out more and more seed companies on its way to becoming the world's largest vegetable and fruit seed dealer.
Unfortunately, farmers aren’t benefiting from this monopoly. In March 2001, a judge ordered Percy Schmeiser, a small farmer in Saskatchewan, to pay Monsanto thousands of dollars after its genetically engineered canola was found growing on his farm. How did the plants get there? Pollen had blown onto his fields from neighbouring farms. It cost Schmeiser thousands of dollars and his dearest treasure: his seeds. He was forced to destroy his stockpile of unique seed that his family had developed over many years. Sadly, the law is not on the side of farmers.
Are GM foods safe? That's the $211 billion question. And according to the African Centre for Biosafety the answer is no. They claim that "Monsanto's Roundup Ready GM wheat is unsafe for human and animal consumption and poses unacceptable risks to human and animal health, biodiversity and the environment." The use and overuse of herbicides risks the health of our environment as well as agribusiness. Cross-pollination (the fertilization of a normal plant with pollen from a GM plant) may lead to triple herbicide resistance and impossible to kill superweeds. A scary scenario.
And how about superBUGs? Some scientists believe antibiotic markers (genetic tags) in GMOs may contribute to the decreasing effectiveness of antibiotics against disease. Not to mention the viruses that are used to infiltrate the cell wall in order to modify the organisms.
What can you do to avoid GM foods? Actually, you’ve probably already eaten them. Crop varieties developed by genetic engineering were first introduced for commercial production in 1994. Nearly two-thirds of products on supermarket shelves today contain genetically engineered ingredients. But you wouldn’t know it. That’s because Congress and the FDA do not require the labeling of GM foods. According to the Pew Initiative, as of 2004, genetically engineered varieties accounted for 85 percent of all soy planted, 45 percent of all U.S. corn planted, and 76 percent of all cotton planted. Other GM food crops grown by U.S. farmers include canola, squash, and papaya.
If this makes you think, you should watch the film that inspired this blog: The Future of Food.
Another great source:
A History and Overview of Monsanto's Biotech Madness
Sunday, July 08, 2007
The United States of Plastic
There is some controversy over the use of plastic in food preparation and storage. Controversy is good. After all, you’re talking about big money, and if Big Money doesn’t like your tone of voice, then you must be doing something right. Titanic petrochemical companies like Dow, ExxonMobil, and BASF, are making billions upon billions in annual profits and they’d rather not have chanticleers waking up their neighbors.
It wasn’t always so.
Plastics were born innocently enough in the Age of Industrialism. The first synthetic plastic, Bakelite (phenol & formaldehyde), was created in 1907 by Leo Baekeland. Over the next two decades, Bakelite became a kind of miracle material to be used in records, cameras, radios, and of course telephones. Have you ever held a Bakelite phone? It is a cold unearthly substance like bone but heavier. It’s easy to see why Hyat Burroughs chose Bakelite to replace ivory billiard balls in 1917. Function and durability were not the only advantages of this new material. During the Great Depression, Bakelite radios were ten times cheaper than wood radios. Th popularity had far-reaching social and cultural effects. Suddenly the President of the
It’s really an old story and, if you’ve studied history, you know it.
Ushering in the machine age in the ‘30s and ‘40s, the petrochemical industry began cranking out other new materials like styrene (synthetic rubber), acrylics (Plexiglas, Lexan), and vinyl chloride (Saran, Teflon). Suddenly there was a war on, between nations and between corporations. The assembly line was king.
After the War, with the rise of consumer credit and consumer electronics, the demand for plastics was as high as ever. The American lifestyle had changed and the petrochemical industry was there to accommodate. You might also say that this was the logical outcome of years of advertisements pushing colorful inexpensive gadgets at the public.
In the year 2007, plastics have become part of the modern everyday, on the verge of replacing paper currency: “Do you take plastic?” To which the answer is inevitably yes. You can’t turn around without seeing some form of plastic at work, in your car, at home. At this very moment, I am typing on plastic, sitting on plastic, wearing plastic. Several of my teeth are capped in composite resin. Guess what? More plastic.
In this plastics-driven world – in the cogs of production and consumption – in the maze of information and misinformation – this is a fine time for individuals and congregations and corporations to question the environmental impact and safety of many new materials.
Experience teaches that we Americans can’t rely on the federal government to protect us. So it comes as no surprise that“The FDA has recognized that chemical components of adhesives, polymers, paper, and paperboard products used in microwave packaging migrate into food but has developed virtually no regulations” (The Safe Shopper's Bible 373).
Healthy Child Healthy World, a non-profit that advocates for safer products and environments for children, claims:
The use of plastics in food storage and cooking can carry health risks. Plastics have been linked to endocrine disruption in babies, cancers, birth defects, and poor brain/nervous system development. Some petroleum-based plastics leach harmful chemicals into foods and drinks, especially when plastic comes in contact with oily or fatty foods, during heating and microwaving, as a result of harsh cleaners, and when exposed to excessive moisture.
Use of certain plastics may also result in exposure to phthalates. For example, diethylhexyl phthalate (DEHP) may migrate from foodwraps during storage. It is classified as a probable human carcinogen and also causes chronic health problems, including liver and kidney abnormalities. Breathing dust contaminated by phthalates that have escaped from vinyl products used in the home may be a significant exposure for children. Children spend up to 90% of their time indoors breathing close to the floor, and many children’s toys are made out of phthalate-softened vinyl.
If these claims are true, are we plastic? That is, are we “readily capable of change”? For most of us, the answer is “No.” Change takes effort. Change takes time. And it’s easy to be overwhelmed.
Try this. Read up on the different types of plastic below and then consider these simple suggestions from HCHW:
- Avoid the use of polycarbonate (No. 7) and polystyrene (No.3 and No.6). If the packaging does not identify the plastic, ask the manufacturer or don’t buy it.
- Choose safer plastics such as polyethylene (No.2 and No.4) and polypropylene (No.5) which require the use of less toxic additives and are non-chlorinated.
- Look for products which state “no phthalates” or “no bisphenol A (BPA)” – these are safer.
- Avoid using plastic containers in the microwave - unsafe chemicals are released when plastics are heated. Instead, use glass or ceramic containers to microwave food and beverages. Pop out frozen food from plastic containers and heat in glass or ceramic.
- Wash plastic containers by hand with a mild soap instead. Dishwasher’s hot water degrades most (if not all) plastics.
- Be cautious of cling wraps, especially for microwave use. Wrap foods in butcher paper, waxed paper, or paper towels. Or store food in glass or ceramic.
- Use alternatives to plastic whenever possible. Use glass, ceramic (lead free), and stainless steel.
- Replace vinyl chew toys made of soft plastic - If you see “V” or “3”, it’s PVC - don’t buy it. Opt for toys and books made with natural wood, paper, cloth, or metal. If you can’t eliminate all of your child’s PVC toys, then make sure they are cleaned regularly. Wet wipe them regularly.
- Look – be aware of plastic products in your child’s surroundings – squeeze toys, rattles, bath toys, cribs, teethers, pacifiers, high chairs, sippy cups, and baby bottles.
Disclaimer: I am not a scientist, so I can only tell you what I’ve read. But I am reasonably confident of the reliability of the information below. It is also the most readable and comprehensive listing that I've seen. If you find a better handbook/cheat sheet on plastics and safe food storage, please let me know.
Plastic No. 1 (20-30% of total sales)
Polyethylene Terephthalate (PET, PETE) – Often including DEHA (diethylhydroxylamine) and DMT (dimethyl terephthalate), potential carcinogens
Description:
Plastic No. 1 (PET, PETE) is usually clear and durable. It has good gas and moisture barrier properties. Generally, it has good resistance to mineral oils, solvents and acids but not to bases. It is very inflammable and inflammability can be reduced by the use of additives.
Creation:
· Production of 1 kg of PET requires the equivalent of about 2 kg of oil (raw material and energy).
Common Uses:
· Plastic soft drink, water, sports drink, beer, mouthwash, catsup and salad dressing bottles, peanut butter, pickle, jelly and jam jars, prepared food trays and film that is used to cook frozen foods and roast.
· Commonly used in soft drink bottles and many injection molded consumer product containers. Other applications include strapping and both food and non-food containers.
Disposal:
· Incineration in an incineration plant mainly produces water and carbon dioxide. Heating value is equivalent to 1/2 kg of oil.
· PET can be recycled into fibres that are used for polyester fabrics.
Recycled Products Include:
· Fiber, tote bags, clothing, film and sheet, food and beverage containers, carpet, strapping, fleece wear, luggage and bottles.
· Cleaned, recycled PET flakes and pellets are in great demand for spinning fiber for carpet yarns, producing fiberfill and geo-textiles.
· Nickname...Polyester.
Plastic No. 2 (50-60% of total sales)
High Density Polyethylene (HDPE)
Description:
Appearance is wax-like and opaque. HDPE has stiffness, strength, toughness, resistance to chemicals and moisture, permeability to gas, ease of processing, and ease of forming. It is highly resistant to many acids, alcalis and solvents. Dishwasher safe. Some types can be used in contact with food.
Creation:
· Production of 1 kg of HDPE requires the equivalent of about 1.75 kg of oil (raw material, energy).
Common Uses:
· Milk, water, juice, cosmetic, shampoo, dish and laundry detergent bottles; yogurt and margarine tubs; cereal box liners; grocery, trash and retail bags.
· HDPE is used to make bottles for milk, juice, water and laundry products. Unpigmented bottles are translucent, have good barrier properties and stiffness, and are well suited to packaging products with a short shelf life such as milk. Because HDPE has good chemical resistance, it is used for packaging many household and industrial chemicals such as detergent and bleach. Pigmented HDPE bottles have better stress crack resistance than unpigmented HDPE bottles.
Disposal:
· Used PE plastic can be recycled through remelting although there is a quality loss. Incineration is straightforward and comparable to oil, since PE only consists of hydrogen and carbon atoms.
· In an incineration plant only water and carbon dioxide are produced. However, common additives like UV-stabilizators (e.g. carbon black), dyeing agents and fire protectors can produce other waste products.
Recycled Products Include:
· Liquid laundry detergent, shampoo, conditioner and motor oil bottles; pipe, buckets, crates, flower pots, garden edging, film and sheet, recycling bins, benches, dog houses, plastic lumber, floor tiles, picnic tables, fencing.
Plastic No. 3 (5-10% of total sales)
Vinyl (Polyvinyl Chloride or PVC) – Leaches dioxins and linked to DEHP & DEHA (carcinogens)
Description:
· Appreciated for its versatility, clarity, ease of blending, strength, toughness. In addition to its stable physical properties, PVC has excellent grease, oil and chemical resistance, performs well in all weather, flow characteristics and stable electrical properties. PVC is self-extinguishing due to the content of chlorine. The diverse slate of vinyl products can be broadly divided into rigid and flexible materials. Soft PVC contains the softener agent DEHP which is under suspicion to reduce men's semen quality. Soft PVC should therefore not be used in contact with food.
· PVC forms hydrochloric acid when it degrades, which causes a chain reaction that proceeds rapidly to a complete loss of strength. Stabilizers are added to prevent this from occurring. Stabilizers used in PVC are generally metal salts, often lead.
Creation:
· Production of 1 kg of PVC requires the equivalent of about 1.5 kg of oil (raw material and energy). This is a low cost plastic.
Common Uses:
· Clear food and non-food packaging, salad dressing and liquid detergent containers, loose-leaf binders, medical tubing, wire and cable insulation, film and sheet, construction products such as plastic pipes, fittings, decking, paneling, gutters, mud flaps, siding, floor tiles, carpet backing and window frames..
· Bottles and packaging sheet are major rigid markets, but it is also widely used in the construction market for such applications as pipes and fittings, siding, carpet backing and windows.
· Flexible vinyl is used in wire and cable insulation, film and sheet, floor coverings synthetic leather products, coatings, blood bags, medical tubing and many other applications.
Disposal:
· When PVC burns, strong hydrochloric acid emanates. Incomplete combustion can develop poisonous dioxin. PVC can be recycled and used in e.g. garden hoses.
Recycled Products Include:
· Packaging, film and sheet, floor tiles and mats, resilient flooring, cassette trays, electrical boxes, cables, traffic cones, garden hose, mobile home skirting.
Plastic No. 4 (5-10% of total sales)
Low Density Polyethylene (LDPE)
Description:
· Excellent resistance to water, moisture and most organic solvents and chemicals (except ones with aromatic or chlorine content). Used predominately in film applications due to its ease of processing, strength, toughness, flexibility, relative transparency, and ease of sealing.
Creation:
· Production of 1 kg of LDPE requires the equivalent of about 2 kg of oil (raw material and energy).
Common Uses:
· Dry cleaning bags, produce bags, trash can liners, bread and frozen food bags, food storage containers, squeezable bottles, e.g. honey, mustard
· LDPE is also used to manufacture some flexible lids, bottles; used in wire and cable applications
Disposal:
· Used PE plastic can be recycled through remelting, although there is a quality loss. Incineration is straightforward and comparable to oil, since PE only consists of hydrogen and carbon atoms.
Recycled Products Include:
· Shipping envelopes, garbage can liners, floor tile, furniture, film and sheet, compost bins, paneling, trash cans, landscape timber, lumber
Plastic No. 5 (5-10% of total sales)
Polypropylene (PP)
Description:
· Polypropylene is an inexpensive, ductile, low strength material with reasonable outdoor performance. The material surface is soft and wax-like and scratches easily. It is resistant to heat, chemicals, grease and oil; it is a barrier to moisture and has a high melting point which makes it good for hot-fill liquids.
· PP material catches fire and burns easily, releasing smoke. Additives reduce its inflammability.
Creation:
· Production of 1 kg of PP requires the equivalent of about 1.75 kg of oil (raw material and energy). This is a low cost plastic.
Common Uses:
· Catsup bottles, yogurt containers, margarine tubs, medicine bottles, aerosol caps, drinking straws
· PP is found in flexible and rigid packaging to fibers and large molded parts for automotive and consumer products.
Disposal:
· Incineration is straightforward and comparable to oil, since PP only consists of hydrogen and carbon atoms. In an incineration plant only water and carbon dioxide are produced. Heating value is equivalent to 3/4 kg of oil.
Recycled Products Include:
· Automobile battery cases, signal lights, battery cables, brooms, brushes, ice scrapers, oil funnels, bicycle racks, rakes, bins, pallets, sheeting, trays
Plastic No. 6 (5-10% of total sales)
Polystyrene (PS) – Styrene exposure has been proven to cause respiratory illness and CNS (central nervous system) problems
Description:
· Polystyrene is versatile, has good insulation, and is an easily formed plastic that can be rigid or foamed.
· General purpose polystyrene is clear, hard and brittle. It has a relatively low melting point.
· PS is resistant to water, acids, bases and detergents, but it dissolves in almost all solvents.
· It is not weather resistant, and therefore not suitable for outdoor uses.
Creation:
· Production of 1 kg of PS requires the equivalent of about 2 1/4 kg of oil (raw material and energy). Styrene monomers are harmful to health.
· Polystyrene burns easily but slowly, with development of thick sooty smoke. Inflammability can be reduced by addition of special additives.
Common Uses:
· Compact disc jackets, food service applications, grocery store meat trays, egg cartons, aspirin bottles, packaging pellets or Styrofoam peanuts, plastic tableware...cups, cutlery, plates meat trays, to-go "clam shell" containers
· Other applications include protective packaging, containers, lids, cups, bottles and trays.
Disposal:
· Incineration in an incineration plant mainly produces water and carbon dioxide. Heating value is equivalent to 1 kg of oil.
Recycled Products Include:
· Thermometers, light switch plates, thermal insulation, egg cartons, vents, desk trays, rulers, license plate frames, foam packing, foam plates, cups, utensils
Plastic No. 7 (5-10% of total sales)
Other Plastics, or polycarbonate (‘Lexan’) – Linked to BPA, an endocrine disruptor
Description:
· Use of this code indicates that the package in question is made with a resin other than the six listed above, or is made of more than one resin listed above, and used in a multi-layer combination.
· Light transmission is 85-90% but depends on the thickness. It has good outdoors resistance in the UV-stabilized form, but it tends to turn yellow by long exposition to sunlight. PC is transparent and can be dyed in many colors.
· BPA leaching is greater in polycarbonate that is scratched, cloudy or exhibits other signs of wear. Leaching is also accelerated by heat. Hot and fatty foods or liquids may dissolve traces of BPA.
· Recent studies suggest that BPA exposure can impair brain function, leading to learning disabilities and age-related neurodegenerative disease. Doses of BPA lower than current EPA limits in female rats inhibited estrogen-induction of synaptic connections in the hippocampus, an area of the brain involved with the expression of sexually differentiated behaviors. Another study found that exposure to BPA before birth permanently changed DNA signaling in rats, predisposing them to developing cancer much later. However, this study injected BPA directly into the subject animals’ blood, whereas most human exposure is via ingestion.
Creation:
· Production of 1 kg of PC requires the equivalent of about 2 1/2 kg of oil (raw material and energy).
Common Uses:
· Three- and five-gallon reusable water bottles, some citrus juice and ketchup bottles
· Certain kinds of food containers and Tupperware.
Disposal:
· Incineration in an incineration plant mainly produces water and carbon dioxide. Heating value is equivalent to 1/2 kg of oil.
Recycled Products Include:
· Bottles, plastic lumber applications
Sources:
The Safe Shopper's Bible: A Consumer's Guide to Nontoxic Household Products, Cosmetics, and Food by David Steinman & Samuel S. Epstein, M.D. published by Macmillan USA 1995, New York.
City of
“Petroleum and Downstream Products” by Michael J. Felton. Enterprise of the Chemical Sciences
"The Rise of Bakelite and other plastics in the USA in the 1930s" by Louis Bloedbeld
