Let's make protecting the Environment 'Everyone's Duty'

ALTERNATIVE ENERGY, BIOPOLYMERS

We can say the present world economy is largely based on petrochemicals. Untill the beginning of the 19 the century global economy was largely based on carbohydrates. With the emergence of petroleum and its diverse set of products, world shifted progressively from carbohydrates to hydrocarbons.

Hydrocarbons are responsible for most of the present day pollution. Further petroleum reserves are gradually diminishing and one day they will be no more. The diiping reserves may even cause a raise in the price. There is thus a need to shift focus on alternatives to petroleum and its products.

Alternative forms of energy like wind, solar, and wave energy serve as alternatives to petroleum for fuel. Experts project that wind power will cader 20% of total electricity needs of America by 2030. Many efforts are in place to harness the wind, solar and wave energy across the globe.
Unlike the Petroleum based fuels, these are clean forms of energy and generate no pollution. Green house gas emmisiions can be reduced by increasing the share of these alternative forms of energy in the global energy usage. One day they might be the only option left behind. So its better we start workin on them seriously right from now.

Its not just in the area of fuel that we got to look into alternatives for petroleum. Many polymers are petroleum derivatives. About 7% of the petroleum reserves are used for polymer production. This can be replaced by Bio-Polymers. Biopolymers are obtained from raw materials produced by plants and animals or microbes. Unlike the hydrocarbon based polymers they are readily degradable under composting conditions (You should remember that normal conditions are not compostinditions. Special composting facilities are necessary. Hydrocarbon based polymers donot degrade under composting conditions).

Ofcorse there sre still many hurdles in the use of these alternatives.

Solar energy is very expensive at present.
Wind energy can be harnessed only in locations where sufficent wind speeds are available. Also proper infrastructure has to develop.
Coming to biopolymers they are not as efficient as synthetic polymers. The are either fragile, opaque, less tensile etc. So they can't be applied for the diverse apllications served by the synthetic polymers.

Efforts are in place and we will have the results in the years to come. Wish this happens at the earliest.

Biopolymers:

Biopolymers are obtained from natural sources like plants, microbes and animals. Plant biomass (carbohydrate) is a major source for the production of biopolymers. Countries like India and China that have abundant agricultural waste have a huge potential for the production of Biopolymers from plant biomass. (Crop residue in India is about 2 billion tonns). Its not wise to divert food material for the production of Biopolymers.

At present the share of biopolymers in the global polymer industry is 0.5% and is expected to grow to around 1.5 to 5%.

Yes, biopolymers are more environmental friendly. But to what extent are they good enough to replace the synthetic polymers. Certin properties of biopolymers act as barriers. Some biopolymers are brittle, some are thermally unstable, some are oaque. Example: PHB and PLA are extremely brittle. Combinations of various polymers can help in improving the properties.
(PHB: Poly Hydroxy Butyricacid. PLA: Poly Lactic Acid)
Apart from the above mentioned properties, some other market barriers include:

  • Price
  • Inadequate facilities for composting.
Major Application Platforms for Biodegradable Polymers are:
  • Packaging films.
  • Drug delivery Systems
  • Foams
  • Blends and composites
  • Integrated Bio-refinery

GREEN CEMENT !!!

Back when Stanford Professor Brent Constantz was 27 he created a high-tech cement that revolutionized bone fracture repair in hospitals worldwide. People who might have died from the complications of breaking their hips lived. Fractured wrists became good as new.

Now, 22 years later, he wants to repair the world.

Constantz says he has invented a green cement that could eliminate the huge amounts of carbon dioxide spewed into the atmosphere by the manufacturers of the everyday cement used in concrete for buildings, roadways and bridges.

His vision of eliminating a large source of the world's greenhouse CO{-2} has gained traction with both investors and environmentalists.

Already, venture capitalist Vinod Khosla is backing Constantz's company, the Calera Corp., which has a pilot factory in Moss Landing (Monterey County) churning out cement in small batches.

And Carl Pope, executive director of the Sierra Club, says it could be "a game changer" if Constantz can do it quickly, on a big scale and at a decent price.

"It changes the nature of the fight against global warming," said Pope, who has talked with Constantz about his work.

That might sound like hyperbole, but the reality is that for every ton of ordinary cement, known as Portland cement, a ton of air-polluting carbon dioxide is released during production. Worldwide, 2.5 billion tons of cement are manufactured each year, creating about 5 percent of the Earth's CO{-2} emissions.

When Constantz learned about the high CO{-2} levels, he thought he could do better. After all, the majority of his 60 patents have to do with medical cement.

He claims his new approach not only generates zero CO{-2} , but has an added benefit of reducing the amount of CO{-2} power plants emit by sequestering it inside the cement.

To make traditional cement, limestone is heated to more than 1,000 degrees Celsius, which turns it into lime - the principal ingredient in Portland cement - and CO{-2}, which is released into the air.

Constantz uses a different approach, the details of which remains secret pending publication of his patent.

At his pilot factory, a former magnesium hydroxide facility that made metal for World War II bombs, magnesium crunches underfoot as Constantz, wearing a pressed, blue button-down shirt with rumpled shorts and sandals, outlines how the process works.

He pointed to two enormous smokestacks billowing flue gases full of carbon dioxide next door at Dynegy, one of the West's biggest and cleanest power plants.

Constantz takes that exhaust gas and bubbles it through seawater pumped from across the highway. The chemical process creates the key ingredient for his green cement and allows him to sequester a half ton of carbon dioxide from the smokestacks in every ton of cement he makes.

Constantz believes his cement would tackle global warming on two fronts. It would eliminate the need to heat limestone, which releases CO{-2}. And harmful emissions can be siphoned away from power plants and locked into the cement.

The same process can also be used to make an alternative to aggregate - the sand and gravel - that makes up concrete and asphalt, which would sequester even more carbon dioxide from power plants.

"The beauty here is we're taking this old industrial polluting infrastructure and turning it into something that will save the environment," Constantz said.

On a per-person basis, the United States is the world's worst CO{-2} polluter from all sources. But according to the Netherlands Environmental Assessment Agency, China just surpassed the U.S. for total carbon dioxide emissions.

China is expected to produce 47 percent of the world's 2.5 billion tons of cement this year, Constantz said.

To power its new buildings and sustain its building boom, China constructs at least one coal-fired power plant a week. Each one belches out enough CO{-2} to cancel the benefits of every hybrid on U.S. roadways, said Constantz.

A CO{-2} molecule can travel from Beijing to San Francisco in less than a day through atmospheric circulation, he said. So even with California mandating that CO{-2} emissions fall to 1990 levels by 2020, a crisis remains.

"Carbon dioxide is a global problem, not a regional problem," he said.

As far as cost, Constantz estimates his cement would retail for $100 a ton versus roughly $110 for Portland.

The reason no one invented it before now, he said, is that people didn't truly understand the dangers of CO{-2} until less than a decade ago.

Skeptics question product

He has skeptics.

Portland cement has a track record of more than 100 years, and any new material would have to get incorporated into building codes, noted Rick Bohan, director of construction and manufacturing technology for the Portland Cement Association in Skokie, Ill.

And Tom Pyle, a Caltrans engineer who serves on the cement subgroup of Gov. Arnold Schwarzenegger's Climate Action Team, acknowledged that the technology is possible, but he still wants to examine Constantz's cement.

"We hope they have a carbon-reducing viable construction material," he said. "They need to show up with a bag of this so we can test it."

Constantz is confident he will prove himself. Initially, he proposes mixing his new invention with Portland cement to ease a conservative industry into a new product. Concrete bigwigs have invited him to speak about Calera cement at their annual World of Concrete in Las Vegas next February.

Power plant partnerships

Constantz envisions building cement factories next to power plants the world over. A team is scouting out U.S. locations. While Dynegy has supplied Constantz with some flue gas, it hasn't entered into a formal agreement.

"As we're looking into the future, we're very interested in technology that would help capture CO{-2} from the flue gases and turn it into a product that offers a benefit," said Dynegy spokesman David Byford.

It could be good for business. California has mandated emissions reductions. And Congress is working on legislation that would allow high polluters to buy credits from those with low emissions. Power plants would have a huge incentive to sequester their CO{-2} in cement.

But even if Constantz succeeds, the world would still need to do much more to fight CO{-2} emissions, said Chris Field, director of the department of global ecology at the Carnegie Institution for Science at Stanford. "It's a big, long complicated game," he said. "As we develop each new segment of the solution we need to embrace it and deploy it and work hard to develop the next segment of the solution."

Coral basis of idea

Big ideas can form in haphazard ways. The one for bone cement began during a televised football game, when Constantz read an osteoporosis article in the New England Journal of Medicine. Three weeks later, as he studied a coral reef, it occurred to him he could maybe synthesize coral skeletons in human bones.

His new cement mimics how coral reefs form, too. Coral uses the magnesium and calcium present in seawater to create carbonates much as he's using CO{-2} and seawater to make carbonate.

This latest invention took 18 months to conceive and execute. He feels it's one of the most important things he's ever done.

"Climate change is the largest challenge of our generation," he said.

Who is Brent Constantz?

Profession: An associate consulting professor in Stanford's department of geological and environmental sciences and founder of the Calera Corp. Created and sold three other companies - Norian Corp., Corazon Technologies Inc. and Skeletal Kinetics.

Education: UC Santa Barbara, bachelor's of science (1981); UC Santa Cruz, doctorate (1986)

Family: Married and father of four.

Pastime: Surfing and rock climbing.

Concrete facts about cement

2.5 billion tons of hydraulic cement is produced worldwide annually. Add sand and gravel and that makes more than 9,000 million cubic yards of concrete. That's more than enough concrete to pave an eight-lane highway from the Earth to the moon and back again - twice.

If you stayed on the planet, that same eight-lane highway would circle the Earth almost 40 times.

Source: Portland Cement Association

I SUCCEDED IN INSPIRING ONE BLOGGER !!!

Ghananadh is a friend of mine. He is also a blogger like me. He worked along with me in distributing the Paper C.D covers as a part of the "Avoid Polythene Campaign". May be its during that period that he started to think of doing his part to save the environment. Recently he posted an article to celebrate Ganesh Chathurthi in an eco-friendly way. I liked that post and i have posted it in my blog. I am happy that i'm successful in making him think for our environment.
Even he is working to make people avoid polythene. Im very happy that he is in one way extending the "Avoid Polythene Campaign". If this continues like this as a chain reaction definitely there will be a decrease in the use of polythene covers.

Carry a Cloth bag/a Basket when you go out to a Market