Friday, January 24, 2014

Sisa buangan terjadual dijadikan produk baharu

Source : Utusan Online, 24/1/14

KUALA LUMPUR 23 Jan. - Seiring dengan perkembangan teknologi, banyak sisa buangan terjadual dapat dimanfaat dan digunakan semula oleh pelbagai jenis industri di negara ini untuk dijadikan produk baharu.

Ketua Pengarah Jabatan Alam Sekitar (JAS), Datuk Halimah Hassan berkata, sehingga tahun lalu, sebanyak 357 kemudahan dilesenkan oleh JAS untuk menjalankan proses penghasilan produk baharu daripada sisa-sisa buangan.

"Sehingga 2012, sebanyak 600,672.22 tan metrik sisa buangan terjadual telah diproses dan diguna semula. Di samping itu, 1.145 juta tan metrik sisa buangan diuruskan dan diproses secara khas untuk digunakan secara terus.

"Salah satu material yang berpotensi dijadikan produk baharu ialah seperti aluminium yang boleh dikitar semula dan dibentuk menjadi tin dan peralatan asas dalam industri automotif," katanya selepas merasmikan Seminar Pengurusan Khas Buangan Terjadual, di sini hari ini.

Yang turut hadir, Timbalan Ketua Pengarah Operasi JAS, Dr. Zulkifli Abd. Rahman dan Pengarah, Bahagian Bahan Berbahaya JAS, Datin Che Asmah Ibrahim.

Halimah berkata, seminar yang pertama kali dianjurkan itu bertujuan memberi pendedahan dan penjelasan tentang hala tuju pengurusan sisa buangan terjadual di negara ini.

"Seminar ini boleh dijadikan platform kepada pihak industri untuk berkomunikasi dengan pihak universiti atau agensi-agensi yang menjalankan kajian bagi menghasilkan produk baharu daripada sisa-sisa buangan itu.

"Alhamdulillah, seramai 280 wakil industri dan pegawai kerajaan hadir menyertai seminar kali ini. Ini menunjukkan maklum balas yang baik daripada pemain industri di negara kita," katanya.


Artikel Penuh: http://www.utusan.com.my/utusan/Dalam_Negeri/20140124/dn_24/Sisa-buangan-terjadual-dijadikan-produk-baharu#ixzz2tUBBYSKQ
© Utusan Melayu (M) Bhd 

More companies discovering gold in toxic waste

Source : The Star, 24/1/14
BANGI: More companies in Malaysia are discovering that there is actually gold in toxic waste, and are now extracting the valuable stuff from things that used to be discarded as trash.
Department of Environment (DOE) director-general Datuk Halimah Hassan said there are 153 facilities in Malaysia which are licensed to recover reusable material, including gold and other precious metals, from e-waste which are classified as scheduled waste.
She said e-waste typically comes from electrical or electronic components from old computers, cellphones and televisions which posed an environmental and health hazard if not discarded properly.
“Rather than primary mining, these companies are recovering these valuable resources from what used to be thrown away,” said Halimah after launching DOE’s guidelines for packaging, labelling and storage of scheduled waste in Malaysia at a hotel here.
She said the approach was a step in the right direction because of the diminishing capacity of landfills where such waste can be discarded safely. Last year, Malaysia generated 78,278 tonnes of e-waste.
Halimah also pointed out the management of scheduled waste in Malaysia had evolved from the concept of cradle-to-grave, where the materials were just discarded, to cradle-to-cradle, where waste is reused as raw material.
She said DOE encouraged and supported companies seeking to recycle scheduled waste into direct reuse material, provided they fulfil all criteria and used proven technology.
Halimah pointed out that in 2012, 600,672 tonnes (35.15%) of scheduled waste were recovered for direct reuse while an additional 1.145 million tonnes (40.14%) were partially recovered before being properly disposed.
This is a tremendous achievement, said DOE’s hazardous substance division director Datin Paduka Che Asmah Ibrahim, who added that only 25% of scheduled waste now end up in special landfills for toxic waste.

'Opt for recovery method'

24 January 2014

By THARANYA ARUMUGAM | tharanya@nst.com.my 

PRECIOUS METALS: Companies urged to reprocess waste instead

BANGI: MORE precious metals will be extracted from toxic waste when industrial companies opt for "full recovery" method (to reprocess the waste) at over 300 recovery plants nationwide, said Department of Environment (DOE) director-general Datuk Halimah Hassan.
Halimah said precious metals, such as gold, silver and lead, could be extracted from the toxic waste and e-waste (electronic waste) when the materials were completely reprocessed.
"Industries have moved from the 'cradle to grave' (disposal of waste as is) to the 'cradle to cradle' (recovery method) approach, where waste materials are now reused as raw materials, either through 'recovery' or 'direct reuse' (recycling) method," she said after launching a Seminar on Scheduled Wastes 2014 at a hotel here yesterday.
Halimah said the recovery method which helps prevent the depletion of natural resources, would also contribute to the country's economy, adding there are 357 recovery plants nationwide, out of which 153 recovers e-waste.
She said as of 2012, about 2.8 million metric tonnes of scheduled waste were produced by various industries in Malaysia.
These wastes include sludge, oil and solvent, toxic, e-waste, clinical, polluted containers, acid and alkaline and used batteries.
Terengganu topped the list in 2012 as the highest producer of scheduled waste with 20.9 per cent, followed by Johor (20.14 per cent), Perak (14.23 per cent), Selangor (12.87 per cent), Penang (8.58 per cent) and other states (23.28 per cent).
Of the total toxic waste in 2012, 35.15 per cent or 600,672.22 metric tonnes of raw materials were recovered.
Halimah said each recovery plant was given the licence to recover a specific metal and the industries would send the toxic waste to the respective plant.
"We also control and monitor the recovery plants to ensure the process is done in a proper manner, without causing added pollution.
"We hope all the industries will adopt the cradle to cradle approach in handling toxic waste for the betterment of the nation."
DOE Hazardous Substances division director Che Asmah Ibrahim, said with the "recovery" method, there would be lesser need to mine new resources.
She said the extraction of precious metal was considered as "full recovery", but only few companies undertook the method and extracted gold or other precious metals.
"In order to move towards a developed nation status, it is crucial to protect the environment and manage natural resources well."
The Federation of Malaysian Manufacturers council member Datuk Mizanur Rahman Ghani said new industries, which use recovered materials as raw materials, had been created following the adoption of the "full recovery" and "direct reuse" methods.
"Industrial development must not be at the cost of the environment.
"There is a need for a balanced development in the country.
"Hence, we get to have a better quality of life and living standard," said Mizanur, who is also the Environmental Management Committee chairman.
"When this happens, it's also an indicator of the economic standing and position of the country as we want to move into the developed country stage."
He also said the industries were now more environmentally conscious and were willing to invest in technology that recovers waste to boost their revenue.


Read more: 'Opt for recovery method' - General - New Straits Times http://www.nst.com.my/nation/general/opt-for-recovery-method-1.469311#ixzz2tYgQw5Xx

Monday, January 13, 2014

The plastisphere menace

Source : The Star 13/1/14

BY LOUIS SAHAGUN

A new world: Plastic debris in the ocean has spawned a ‘plastisphere’ of organisms that scientists fear may send ripples through the marine ecosystem.
A new world: Plastic debris in the ocean has spawned a ‘plastisphere’ of organisms that scientists fear may send ripples through the marine ecosystem.
   
An ecosystem of mankind’s own making could pose an ecological threat.
ELIZABETH Lopez manoeuvred a massive steel claw over the side of a 45m sailboat and guided its descent through swaying kelp and schools of fish 16km off the coast of San Diego, California. She was hoping to catch pieces of a mysterious marine ecosystem that scientists are calling the “plastisphere”.
It starts with particles of degraded plastic no bigger than grains of salt. Bacteria take up residence on those tiny pieces of trash. Then single-celled animals feed on the bacteria, and larger predators feed on them.
“We’ve created a new man-made ecosystem of plastic debris,” said Lopez, a graduate student at the University of San Diego, during the recent expedition.
The plastisphere was six decades in the making. It’s a product of the discarded plastic – shopping bags, flipflops, margarine tubs, toys, toothbrushes – that gets swept from urban sewer systems and river channels into the sea.
Degraded plastic bags that have been washed ashore in Sekincan, Selangor. A new man-made ecosystem of plastic debris is taking shape in the sea.
Degraded plastic bags that have washed ashore in Sekincan, Selangor. A new man-made ecosystem of plastic debris is taking shape in the sea.

When that debris washes into the ocean, it breaks down into bits that are colonised by microscopic organisms that scientists are just beginning to understand. Researchers suspect that some of the denizens may be pathogens hitching long-distance rides on floating junk. Scientists also fear that creatures in the plastisphere break down chunks of polyethylene and polypropylene so completely that dangerous chemicals percolate into the environment.
“This is an issue of great concern,” said Tracy Mincer, a marine geochemist at the Woods Hole Oceanographic Institution in Massachusetts. “Microbes may be greatly accelerating the weathering of plastic debris into finer bits. If so, we aren’t sure how zooplankton and other small creatures are responding to that, or whether harmful additives, pigments, plasticisers, flame retardants and other toxic compounds are leaching into the water.”
Planet Plastic
About 245 million tonnes of plastic is produced annually around the world, according to industry estimates. That represents 31.5kg of plastic annually for each of the 7.1 billion people on the planet, scientists say.
The waste gathers in vast oval-shaped ocean “garbage patches” formed by converging currents and winds. Once trapped in these cyclonic dead zones, plastic particles may persist for centuries. The physiological effects of visible plastic debris on the fish, birds, turtles and marine mammals that ingest it are well-documented: clogged intestines, suffocation, loss of vital nutrients, starvation. The effects of the minuscule pieces that make up the plastisphere are only beginning to be understood.
Edward Carpenter, a professor of microbial ecology at San Francisco State University, first reported that microbes could attach themselves to plastic particles adrift at sea in 1972. He observed that these particles enabled the growth of algae and probably bacteria and speculated that hazardous chemicals showing up in ocean animals may have leached out of bits of plastic.
Carpenter’s discovery went largely unnoticed for decades. But now, the scientific effort to understand how the plastisphere influences the ocean environment has become a vibrant and growing field of study. From Woods Hole to the University of Hawaii, scientists are collecting seawater and marine life so they can analyse the types, sizes and chemical compositions of the plastic fragments they contain. Their findings are shedding new light on the ramifications of humanity’s addiction to plastic.
A fine mesh net called a ¿neuston net¿ collects samples of animal and plant life at the sea surface as it is towed,
A fine mesh net called a neuston net collects samples of animal and plant life at the sea surface as it is towed.

“We’re changing the basic rhythms of life in the world’s oceans, and we need to understand the consequences of that,” said marine biologist Miriam Goldstein, who earned her doctorate at University of California San Diego’s Scripps Institution of Oceanography by studying plastic debris in the Great Pacific Garbage Patch between Hawaii and California.
In October, Goldstein and oceanographer Deb Goodwin of the Sea Education Association in Woods Hole reported that one-third of the gooseneck barnacles they collected from the garbage patch had plastic particles in their guts. The typical fragment measured 1.4mm across, not much bigger than a piece of glitter, according to their report in the journal PeerJ.
Some of the barnacles had bits of plastic in their faecal pellets too. That finding led Goldstein to speculate that some of the 256 barnacles that were plastic-free when they were captured by researchers had probably eaten plastic at some point in their lives but cleared it from their systems. Since crabs prey on barnacles, the plastic the barnacles eat may be spreading through the food web, Goldstein and Goodwin reported.
Fish that ingest plastic debris tend to accumulate hazardous substances in their bodies and suffer from liver toxicity, according to a study published in the journalScientific Reports. Not only was the plastic itself dangerous, so too were the toxic chemicals the plastic had absorbed.
The plastisphere isn’t limited to oceans. In 2012, a team of researchers discovered microplastic pollution in the Great Lakes – including high volumes of polyethylene and polypropylene “microbeads” used in facial cleansers.
Other scientists, including Mincer of the Woods Hole institution and microbial ecologist Erik Zettler of the Sea Education Association, spent three years coming up with the first comprehensive description of microbial communities that colonise plastic marine debris.
The researchers used fine-scale nets to skim plastic particles from more than 100 locations in the Atlantic Ocean, from Massachusetts to the Caribbean Sea. Using scanning electron microscopes and gene-sequencing techniques, they identified more than 1,000 different types of bacteria and algae attached to seaborne plastic, according to their report in June in the journal Environmental Science & Technology.
Of particular concern was a sample of polypropylene not much larger than the head of a pin. Its surface was dominated by members of the genus Vibrio, which includes the bacteria that cause cholera and other gastrointestinal ailments.
In a research on the effects of plastic waste, students from the University of San Diego use tweezers and a spoon to gather specimens of weathered plastic retrieved from the sea.
In a research on the effects of plastic waste, students from the University of San Diego use tweezers and a spoon to gather specimens of weathered plastic retrieved from the sea.
These potential pathogens could travel long distances by attaching themselves to plastic debris that persists in the ocean much longer than biodegradable flotsam like feathers and wood.
The team is now comparing microbial communities on plastic debris collected in the North Pacific and North Atlantic oceans, trying to understand the bacteria that feed on their waste products, and predators that feed on all of them.
“Each one of these plastic bits is a circle of life – one microbe’s waste is another microbe’s dinner,” Mincer said. “We want to know more about how some microbes may be hanging out on plastic trash, just waiting to be eaten by fish so they can get into that environment.”
Meanwhile, in San Diego, Lopez and her colleagues are examining the samples they collected under powerful microscopes and removing tiny bits of plastic for classification and chemical analysis.
Their findings will be shared with the Southern California Coastal Water Research Project, a public research institute that monitors urban pollution.
“These microplastic worlds right under our noses are the next ocean frontier,” said Drew Talley, a marine scientist at the University of San Diego.
“It would be a crime not to investigate the damage they might be doing to the oceans and to humans. – Los Angeles Times/McClatchy Tribube Information Services