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With rapid urbanisation and rising incomes, India is facing a massive waste management challenge. Urban population of India generates 62 million tonnes of municipal solid waste per annum. Only 43 million tonnes (MT) of the waste is collected, 11.9 MT is treated and 31 MT is dumped in landfill sites. India generates about 1.7 million tonnes of electronic waste and only 1.5% of the total e-waste generated is recycled. Biomedical waste generation is about 484 tonnes per day. It is the need of the hour that focus of waste management shifts to processing and resource recovery.

Centre for Science and Environment (CSE) recognises this need and is organizing an advanced five-day training programme on “Integrated Waste Management”. The objective of the programme is to get a better understanding of main features of the management of Solid, Plastic, Bio-medical, E-waste and C&D waste, the technologies involved in their treatment, the key legislative frameworks and the stakeholders involved. Some of the key takeaways for participants from this training shall be

1. Existing status of waste management in India

2. Major provisions of the new Waste Management Rules, 2016 and their status of implementation

3. Role and responsibility of different stakeholders

4. Inventorisation and Extended Producer Responsibility.

5. Decentralised waste management

6. Use of IEC for behaviour change

7. Use of IEC for behaviour change

8. Site visits to learn about best practices

TRAINING METHODOLOGY: Lectures, case studies, class exercises, discussion and field visits

SCHEDULE 

Course Duration: January 8-12, 2018

Time: 10 AM - 5:30 PM 

Course fee: Rs.15,000 for urban developers, government officials and consultants, Rs.10,000 for academicians, NGOs and researchers, Rs.7,500 for students Note: Accommodation can be arranged nearby the training centre, would incur extra charges

Last Date for Applying: November 30, 2017

OPEN FOR: Waste management practitioners, officials from central and state urban departments, municipalities, urban & town planners, village panchayats, academicians, students, NGOs

A certificate of participation will be awarded at the end of the programme

Note: Accommodation can be arranged nearby the training centre, would incur extra charges

Weblink: http://www.cseindia.org/content/training-programme-integrated-waste-management

For details contact:

Neha Walani, Programme Officer, 
Environmental Governance Unit (Waste Management), 
Centre for Science and Environment, 
41, Tughlakabad Institutional Area, New Delhi-110062
Ph: 91-11-2995 5124 / 6110 (Ext. 204); Fax: 91-11-2995 5879
Mobile: +91 9833216072, 
Email: neha.walani@cseindia.org,

I have often wondered whether I am doing the right thing by using anything that looks like plastic or buying anything remotely associated with it. Let's think about it... the packaged lentils we buy, the nylon and polyester we wear, the Amul milk the kids have each morning, the rain coats they use in the rains, the books I order off flipkart.com (they come shrink-wrapped in clingfilm), the computer you are using to read this blogpost, bullet-proof vests (nope, I don't need those but I thought it would be fun adding it in here), toys, PVC piping, and an endless list of consumer paraphernalia that comes wrapped in plastic (such as the underside of the wrapper of your bathing soap)... I must confess that while the answer is still not clear in my mind, I am swaying towards the "plastic ain't that bad" argument (I guess some people might say I am not environmentally friendly—not true!). But before I get mobbed, let me explain.

About.com's page on Inventors reports that "The first man-made plastic was created by Alexander Parkes who publicly demonstrated it at the 1862 Great International Exhibition in London. The material called Parkesine was an organic material derived from cellulose that once heated could be molded, and retained its shape when cooled." Like many inventions that changed the way we live, this one too was an accident. Apparently, his interest in plastic stemmed from wanting to make billiard balls out of it (I guess it must have been a popular game back then). R&D related to the creation of white chalkboards gave rise to yet another kind of plastic (this one used milk protein mixed with formaldehyde), and I guess it just went on and on after that.

The reason plastic really took off the way it did, and continues to do so well today can be summed up in one word—convenience. Plastics last an age (literally; plastics take between 500 to 1,000 years to degrade once you shuck them into a landfill), so one would ostensibly not need to replace plastic items for a long time. Plastic storage containers are stronger and more durable compared to waxed paper containers. Plastic is also cheaper than most metals. It can be molded into nifty shapes and can take on pretty colors. It is cheap to produce and easy to clean. Without the use of plastics, the product life of some major appliances would reportedly reduce by nearly 50 percent. According to the same source, today's major appliances would cost at least 25 percent more and use 30 percent more energy than similar products produced without plastics. In short, it is EVERYWHERE.

Then, why is plastic so reviled? For one thing, it is not biodegradable (like I said, plastic lasts an age). Trashed plastic bags are useless and ugly. Carelessly discarded plastic bags were blamed for the 2005 deluge in Mumbai (there are other reasons too, but I won't go into that here.) In the US, plastic is said to account for 16 percent of all municipal solid waste, with 50 to 80 percent littering beaches, oceans, and seabeds. It appears then that we are predominantly looking at the disposal end of plastic when we think about all the problems it causes. Numerous studies in life cycle assessment have in fact showed that all things considered, plastic beats paper in environmental terms.

The latest monster to rear its ugly head and urge naysayers against plastic is BPA or Bisphenol A. With the exception of USA and Europe, BPA is used in the synthesis of a number of plastic items such as baby bottles, sports equipment and certain medical devices. It is a known endocrine disruptor, and understandably, has people worried. However, a blanket ban on BPA in plastics is helping to solve the problem.

Having said that, there is no denying that plastic is here to stay. So, how do we deal with the problem? Demonizing plastic is easy, but where do we go from there? I feel the answer lies in better recycling rates, and of course, creating awareness about the issue. The  local kabadiwallah (junk or scrap dealer) serves as the unofficial recycler of plastics in India, but much more needs to be done. There is no other (formal, government-sponsored) recycling infrastructure to speak of. Demand for post-consumer plastics needs to be stepped up. This can be done with careful realigning of policies to the effect. Local governments in particular need to enact and implement laws with teeth. In my view, clever (eco-friendly) product design can help win half the battle (but that's the subject of another post).

Unfortunately, we often fail miserably on most counts. The truth is that every article we use, every action we take, every discovery we make, has the potential to distort our environment. Nothing is environmentally benign. It is how we deal with the issue that matters.

This post originally appeared at http://mahazareendastur.blogspot.in/.