International Research journal of Management Science and Technology

  ISSN 2250 - 1959 (online) ISSN 2348 - 9367 (Print) New DOI : 10.32804/IRJMST

Impact Factor* - 6.2311


**Need Help in Content editing, Data Analysis.

Research Gateway

Adv For Editing Content

   No of Download : 25    Submit Your Rating     Cite This   Download        Certificate

AGRICULTURE WASTE MANAGEMENT

    1 Author(s):  NEERAJ RANI

Vol -  8, Issue- 12 ,         Page(s) : 281 - 284  (2017 ) DOI : https://doi.org/10.32804/IRJMST

Abstract

Waste management is all about how to dispose of all the things you don't want on the farm. Composting is a sustainable waste management practice that converts any volume of accumulated organic waste into a usable product. When organic wastes are broken down by microorganisms in a heat-generating environment, waste volume is reduced, many harmful organisms are destroyed, and a useful, potentially marketable, product is produced. Organic wastes may include manure from livestock operations, animal bedding, yard wastes, such as leaves and grass clippings, and even kitchen scraps. sidues and wastes constitute a significant proportion of worldwide agricultural productivity. Although the quantity of wastes produced by the agricultural sector is significantly low compared to wastes generated by other industries, the pollution potential of agricultural wastes is high on a long-term basis.

1.2001/77/EC and 2003/30/EC, Directive 2009/28/EC. Official Journal of the European Union, 5 June 2009,  pp. 16–47.  2. The Energy Law, the Act of 10th of April 1997. Available online: http://www.ure.gov.pl/ download.php?s=2&id=2 (accessed on 4 August 2014)
. 3. Jasiulewicz, M. Possibility of liquid bio-fuels, electric and heat energy production from biomass 
in Polish agriculture. Pol. J. Environ. Stud. 2010, 19, 479–483. 
4. Agricultural Market Agency. Agricultural Biogas, data for 2011–2012. Available online: http://www. arr.gov.pl/index.php?option=com_content&view=article&id=1639&Itemid=631 (accessed on 21 June 2013). 
5. Zmuda, K. Biomass Potential in the Production of Agricultural Biogas in Poland. In Renewable Energy Sources as a New Challenge for Rural Areas in Poland; Kucharska, B., Ed.; Foundation of Assistance Programme for Agriculture (FAPA): Opole, Poland, 2009; pp. 17–20.  6. Ministry of Economics. Trends in the Development of Agricultural Biogas Plants in Poland in  2010–2020. Available online: http://www.mg.gov.pl/node/11898 (accessed on 29 June 2013). 
7. Nges, I.A.; Escobar, F.; Fu, X.; Björnsson, L. Benefits of supplementing an industrial waste anaerobic digester with energy crops for increased biogas production. Waste Manag. 2005, 32, 53–59. 
8. Commission of the European Communities Green Paper follow-up action—Report on progress in renewable electricity. Available online: http://ec.europa.eu/energy/energy_policy/doc/06_ progress_report_renewable_electricity_en.pdf (a

*Contents are provided by Authors of articles. Please contact us if you having any query.






Bank Details