Friday, March 25, 2011

Industrial Growth and Solid Waste Generation


Industrial growth and solid waste generation
Enhancing the economic growth is imperative for India’s progress and industrial activity is the key. Growth of the industrial sector has quadrupled in the past five decades since Independence. It is important to recognize that while India’s economic growth over the past 20 years has growth in selected industrial sectors in india in recent years
Table 1
  Industry                                                        1990/91                                                 2000/01

Cement                                                                 48.4                                                    99.5
Finished steel                                                        13.5                                                     29.3
Sugar                                                                    12.1                                                    15.5  
Fertilizers                                                               9.0                                                     14.7
Paper and paper board                                          2.1                                                       3.1
Caustic soda                                                          1.0                                                      1.6   
Aluminium                                                              0.5                                                      0.6  


Been quantified as 163%, the total increased in pollution generation has been approximately 475%, with the industrial pollution alone accounting for 247%. Growth in the selected industrial sectors in India in recent years is highlighted in Table 1.
It is noteworthy that as the higher levels of economic growth are achieved, generation of hazardous waste is also increased. As per the CII (Confederation of Indian Industry) estimates, in France, every 1% growth in the GDP (Gross domestic Product) in the past has resulted in a 3% growth in hazardous waste. Therefore, it becomes important for a country like India to devise an effective strategy for hazardous waste management in the early stages itself in order to tackle the problems of rapid economic growth.
Industrial Solid Waste Generation in India
Industrial solid wastes can be divided into two types based on their chemical nature- non-hazardous and hazardous. Major generators of non-hazardous industrial solid wastes in India are thermal power stations producing coal ash; steel mills producing blast furnance slag and steel melting slag; non-ferrous industries like aluminium, zinc, and copper-producing red mud and tailings; sugar industries generating press mud; pulp and paper industries producing lime sludge; and fertilizer and allied industries producing gypsum. As these wastes are generated in huge quantities (147 MT[million tonnes] per annum as per the 1999 estimate), their recycle/reuse potential should be explored, otherwise a huge land area would be needed for disposal. The quantum of industrial waste prodused per annum and its origins are given in table 2.
Table 2
                                                              Quantities (million tonnes per annum)  
 Waste                                        1990           1999                      Source/origin
Steel and blast furnace slag             
35.00                
7.50        
Conversion of pig iron to steel and manufacture of iron                                                                                                                                                                                                                                             
Brine mud
0.02
-
Caustic soda industry
Copper slag
0.02
-
By-product from smelting of copper
Fly ash
30.00
58.00
Coal-based thermal power plants
Kiln dust
1.60
-
Cement Plants
Lime sludge
3.00
4.80
Sugar, Paper, fertilizer, tanneries, soda ash, and calcium carbide
Phosphogypsum
4.50
11.00
Phosphoric acid plant and ammonium phosphate
Red mud/bauxite
3.00
4.0-4.50
Mining and extraction of alumina from bauxite
Lime stone
-
50.00
-
Iron tailings
-
11.25
-
Total                 
77.14
147.05


The exercise to make an inventory of hazardous waste generation in different states of India was initiated by the CPCB (Central Pollution Control Board) in 1993. Present information on total hazardous waste generated from industries and the facility available for its disposal in the respective states in India has been collected by the MOEF(Ministry of Environment and Forests), Government of India, through the respective SPCBs (States Pollution Control Boards). As per the current MOEF estimates, about 4.2 MT of hazardous waste is generated in the country as per the Hazardous waste rules of 1989 (MOEF 2000). The present generation of hazardous waste(million tonnes per annum) in the selected states in India is shown in box 1.
A significant number of hazardous waste-generating units are not included in this inventory. There are a number of units in the small-scale and unorganized sector handling hazardous waste without the pollution control safeguards. They generates hazardous waste in quantities that are not regulated by the rules; however, their cumulative impact cannot be ignored. There are about three million small-scale units in various sectors all over the country and, also there are units located in the FTZ(free trade zone), which are not registered with the SPCBs.
Box 1
Generation of hazardous waste(in million tonnes per annum) in selected states in India
State                                            Generation
Maharashtra                                         2.0
Gujarat                                                 0.43
Tamil Nadu                                           0.40
Uttar Pradesh                                        0.14
Rajasthan                                              0.14     

In addition, it is estimated that the ship-breaking activity in India produces about 4000 tonnes of solid waste per annum. These wastes require proper treatment and disposal as currently, they remain scattered on the seashore and contaminate the marine environment.

Industrial Solid Waste

Industrial Solid Waste is fast becoming a massive challange to manage. Industrial Solid Waste out put has increased drastically over the last few decades. The following article talks about Industrial Solid Waste.
Industrial Solid Waste
Solid Waste generally refers to any garbage, refuse,sludge, and other discarded or salvageable materials, including solid,liquid,and sami-solid materials resulting from industrial, commercial, mining, and agricultural operations, and from community activities. This does not include solids or dissolved materials in domestic sewage, dissolved or suspended solids in industrial waste water effluent, or other common water pollutants.
Solid waste management  refers to its scientific management after generation, reuse, and recycling, up to treatment and disposal. In this paper, management of industrial solid waste is discussed with reference to the hazardous waste generated from industrial sources in a manner to avoid its adverse impact on human health and the environment.
The WHO(World Health Organization), UNEP(United Nation Environment Programme), and the World Bank formulated a working defination of hazardous waste as any waste, excluding domestic  and radio-active waste, which, because of its quantity and physical, chemical, and infectious characteristics can cause a significant hazard to the human health and/or the environment when improperly treated, stored, transported, or disposed.
The Indian regulation has defined hazardous waste in line with the requirement of the Basel Convention, as follows.
Hazardous waste means any waste which, by reason of any of its physical, chemical, reactive, toxic, flammable, explosive, or corrosive characteristics, causes danger or is likely to cause danger to health or the environment, whether by itself or in contact with other waste or substances. Such waste includes the following.
(a)    Wastes listed in column 3 of schedule 1 of the Hazardous Waste (Management and Handling) Amendment Rules, 3003,
(b)   Wastes having constituents listed in schedule 2 of the rules if their concentration is equal to or more than the limit indicated in the said schedule, and
(c)    Wastes listed in lists ‘A’ and ‘B’ of schedule 3 (Part A) applicable only in case(s) of import or export of hazardous waste in accordance with Rules 12, 13, and 14 if they possess any of the hazardous characteristics listed in part B of schedule 3.
Rapid urbanization and industrialization in india have resulted in an increased need for proper disposal of industrial waste. The industrial sactor in India has quadrupled in size in the past three decades. There has been a significant increase in the industrial sectors such as pesticides, drugs and pharmaceuticals, textiles, dyes fertilizer, tanneries, paint, chloralkali, etc., which have a major potential for generation of hazardous wastes.
Hazardous waste from these sectors contain heavy metals, cyanides, pesticides, complex aromatic compounds, and other chemicals that are toxic to humans, plants, or animals and are flammable, corrosive, explosive, or have a high chemical reactivity. Hazardous waste contribution from industrial sources is also critical due to the wide geographical spread of industrial sources is also critical due to the wide geographical spread of industrial units in the country, thereby leading to region-wide impacts.
Hazardous waste when not adequately  handled and disposed, can cause immediate short-term public health problems as well as long-term environmental contamination and degradation of natural resources. A proper treatment and disposal of such hazardous waste is much more expensive and complex than dealing with the conventional or non-hazardous wastes/residues.
Experiences in a number of developed countries suggests that cleaning up of hazardous wastes is much more expensive in the long term as compared to its prevention at the source. For instance, in the United states, cleaning of improperly managed wastes has been estimated to cost 10-100 times as much as proper early management (Hwa 2002). It is therefore, essential for the industrialized states of india to improve the monitoring and enforcement measures, and the physical infrastructure needed for their effective implementation, while promoting recycling, recovery of materials, and avoidance of generation of hazardous wastes.

Wednesday, March 23, 2011

Noida Sanitation Issue


Lack of Sanitation in NOIDA 

Noida the show window of the state of Utter Pradesh, is facing serious sanitation problems. Every day Noida generates 300 tons of Municipal Solid Waste, out of which 65% is organic waste, 20% is recyclable waste and the remaining 15% is inert waste (Waste such as chip packets, mud, construction derbies).

“Sanitation” is one of the most pressing issue’s faced by the city of Noida today. While driving around in the city you will find numerous dumps, outside residential areas, market places and industrial areas. Noida development authority is responsible for collection of waste from residential, commercial and industrial areas located within Noida, but as of now mostly the unorganized sector comprised of rag pickers and young children shoulder this responsibility. To add fuel to the fire Noida authority has no official landfill site where inert waste can be taken and dumped in a scientific manner. This adds to the problem of illegal waste dumps that we see all over the city.  
I wonder how Noida Authority failed to foresee this. In spite of few Private companies like “Eco Wise Waste Management Pvt. Ltd.” Which is working hard to improve the environmental condition in Noida for last five years. The initiative from the government and the private sector is missing.
Recently an article printed in the “HT Live Noida” of Hindustan Times also discussed about the sanitation problem in Noida. According to them these are the problem faced in Noida.
1.   
    Ssanitation :- Garbage is strewn everywhere on the roads, on the pavements, even covering the vacant plots, big market areas like sector-18 market.
2.       Dumped Material :- None of the roads internal or external, are free of heaps of construction material, bricks, cement & iron rods are dumped everywhere.
3.       Roads & Drains :- Most internal roads have not carpeted.
4.       Slum Cluster :- The number of slums has increased so much so that now an entire basti has been established here.
It is time the government starts thinking beyond the commercial angle & working towards environmental development of the city.

Thursday, March 17, 2011

Waste To Energy Project


Waste To Energy Project

Close to 97% of food waste in North America ends up in landfills. That’s trash that could be cost-effectively turned into renewable fuel using waste to energy technology, says Paul Sellew, chief executive of waste to energy firm Harvest Power. The Waltham, Mass. company announced Wednesday that it raised a $51.7 billion Series B round of funding, which will help it ramp up the pace at which it is building facilities to turn yard and food waste into methane, the principal component of natural gas using its waste to energy technology. The new funding brings the total equity financing raised by Harvest Power to roughly $70 million, Sellew said.




Harvest Power is currently in the process of building two large anaerobic digestion facilities, one in Richmond, outside Vancouver, Canada and the other in London, Ontario. There it plans to take food and yard waste and turn them into methane, which can be sold as a fuel. Harvest Power also operates large composting facilities in California and the northeastern U.S. In Tullytown, Penn., it runs Waste Management’s Warner North Composting Facility. Waste Management is an investor in Harvest Power, as is venture capital firm Kleiner Perkins (home to billionaire venture capitalist John Doerr) and Munich Venture Partners. New investors in the latest round include former vice president Al Gore’s Generation Investment Management. (For more on Sellew’s entrepreneurial background, read Meet The Renewable Entrepreneur, written by my colleague Maureen Farrell last August.)



What was surprising: Sellew didn’t boast about any special technological advantage that Harvest Power has. He admits that anaerobic digesters and composting are well understood technologies. “We have created a novel approach…and we have gained a cost advantage,” Sellew said in a phone interview. “It’s the efficiency, it’s the capital cost, operating cost, productivity and yield we get out of our technologies.” So couldn’t some other large operator of composting facilities do the same? Sellew says the market is fragmented and the company really doesn’t have large competitors.



Harvest Power’s model is to design, build, own and operate its own facilities. Sellew wouldn’t give me a sense of how profitable these facilities can be, but he said he expects the company to be profitable this year, on a run rate of $100 million revenues. By the end of next year, it expects to expand operations from its five current facilities to 20, just in north America. “We view this as similar to next generation solar. We’re taking a waste material and extracting the energy out of it. We can produce energy 24/7, 365 days a year,” says Sellew. Of course, methane has a bigger carbon footprint than solar energy does.



A handful of cities, including San Francisco, require residents to separate food waste from other garbage. San Francisco currently has a large compost facility that turns food waste into fertilizer. Sellew expects more cities to adopt such policies, a move that could create more business for his company.