Post on 28-Oct-2014
Management of Municipal Solid Waste by Vermicompost
NOOR MOHAMMED 10011D8103 M .TECH 3 rd SEM - INFRA STRUCTURE
There has been a significant increase in MSW(Municipal solid waste) generation in India in the last few decades.
This is largely because of rapid population growth and economic development in the country.
Solid waste management has become a major environmental issue in India
Land fills are the most common means of solid waste disposal.
But, the increasing amount of solid waste is rapidly filling existing land fills, and new sites are difficult to establish.
The per capita of MSW generated daily, in India ranges from about 100 gm insmall towns to 500 gm in large towns
Introduction
The average collection efficiency for MSW in Indian cities is about 72.5% and around 70% of the cities lack adequate waste transport capacities
The municipalities in India therefore face the challenge of reinforcing their available infrastructure for efficient MSW management and ensuring the scientific disposal of MSW.
It is understood by house hold survey, that 70 to 75 tones of MSW in ELURU is being generated every day.
The available quantities can safely and conveniently generate about 3MWs of power or can be converted in to vermin compost as manure for farmers.
Solid waste
Segregation at source
Biodegradables Non-biodegradables
Paper
Cloth
Plastic
Glass
Metal
Recycle
Recycling through scrapdealers
Compost /vermicompost
What is Vermicompost?
Vermicomposting is a simple
biotechnological process of
composting organic waste in
to compost with the help of
earthworms.
Vermicompost is an organic manure (biofertilize) produced as the vermicast by earth worm feeding on biological waste material, plant residue.
Vermicomposting, or worm composting, is considered an easy way to recycle food wastes. When cared for properly, worms process food quickly and transform food wastes into nutrient-rich castings
In the process of breaking down food waste, worms feed on microorganisms, which grow on the surface of the waste, and excrete particles of smaller size, which are called worm castings.
Vermicomposting is an important aspect, as it converts waste to wealth byusing cheap eco-friendly option with activity of earthworm
vermicompost are healthier because the nutrients are more available to plants and less chemical waste leaches into the soil and groundwater
What worms are good for vermicomposting?
Non-burrowing types are used for vermicomposting.
They are red or purple, live on the soil surface and
help digest 90% organic waste materials.
Don’t use the pale-coloured ones that live inside the soil and are
generally seen in rice fields.
These are the burrowing types which are not used for
vermicomposting since they eat 90% soil.
Nutrient Content Of Vermicompost
NITROGEN 0.8 to 1.0 %
PHOSPHOROUS 0.8 to 1.0 %
POTASH 0.8 to 1.0 %
CALCIUM 0.44%
MAGNESIUM 0.15%
IRON 27.3 ppm
MANGANESE 16.4 ppm
ZINC 18.0 ppm
COPPER 7.6 ppm
Advantages of using vermicompost : Increases water-holding capacity of soil
Reduces salinization and acidification
Reduces soil erosion
Enhances soil productivity
Promotes faster growth of plants, increases crop yield
Induces resistance to pest and disease attack
Easy to produce with low cost
Earth worms (in case of excess) can be used as a feed for poultry and fish
Reduces the cost of cultivation by providing higher returns
Biodegradable Garbage
Preparation of waste beds after segregation
Waste beds covered with dung slurry
Transfer to pits –Vermiculture treatment
Screening
Final product (Vermicompost)
Vermicompost : the process
Pulverisation Segregation
Preparation Of Vermi Bed
Applications of Vermicompost
Add 15 -20 gms of Vermi Compost to a liter of water and use this to water potted plants daily.
Use 1 part of Vermi Castings, 1 part sand and 1 part garden soil and mix well before use.
Application of Vermicompost for different fields
BANANA 1 metric ton / acre
FLOWERS 2 metric ton / acre
GRAPES 1.5 metric ton / acre
TE 1.5 metric ton / acre
COFFEE 1 metric ton / acre
MULBERRY 1 metric ton / acre
For Crop like Paddy, Ragi and Legumes, Sugercane, Cotton, Vegetables etc., apply 300 to 500 Kg / acre by broadcasting.
Apply 1 3Kgs / tree (depending upon age) twice a year. For Crops like Coconut, Rubber, Groundnut, Mango, Cashew and other plantation crops
Comparison between Vermicast V/s. Chemical Fertilizers
Criteria for Comparison Chemical Fertilizers Vermicast
Macro nutrient contentsMostly contains only one (N in urea) or at the most two (N & P in DAP) nutrients in any one type of chemical fertilizer
Contains all i.e. nitrogen (N), phosphorus (P) & potassium (K) in sufficient quantities
Secondary nutrient contents
Not availableCalcium (Ca), magnesium (Mg) & sulphur (S) is available in required quantities
pH balancing Disturb soil pH to create salinity and alkalinity conditions
Helps in the control of soil pH and checks the salinity and alkalinity in soil
Soil Texture Damages soil texture to reduce aeration
Improves soil texture for better aeration
Conclusions
The central idea of VERMICOMPOST is not only to manage the solid waste system by producing wealth from it but also to save the environment from pollution..
Collection, transportation and disposal of all the three components of waste lack in terms of infrastructure
however, the weakest link in the chain of waste management in Indian situations is the collection of waste.
Therefore, by managing the wet waste generated in the town MCE can earn Rs 0.89 Crores per annum, which is a considerable amount for providing better services.
Vermicast has improved plants survival rates from average 40 percent to over 85 percent in most cases
References
INTERNATIONAL JOURNAL OF ENVIRONMENTAL SCIENCES Volume 1, No1,2010
Management of Municipal Solid Waste by Vermicompost. A case study of Eluru
• J.Sudhir Kumar - Associate Professor, Dept. of Mechanical engg, Sir C.R.Reddy college of engg, Eluru
• Venkata Subbiah.K - Professor, Dept of Mechanical Engineering, College of Engineering, Andhra University, Vishakapatnam
• Prasada Rao.P.V.V - Professor, Dept of Environment Science, College of Engineering, Andhra University, Vishakapatnam
• “ www.agricare.org” accessed on 14 th June, 2010
• www.agri.and.nic.in/vermi_culture accessed on 14 th June, 2010