Accesso libero

The Cost-estimation of Mechanical Pre-treatment Lines of Municipal Solid Waste in Latvia

Dace Āriņa
Dace Āriņa
, 
Kaspars Kļavenieks
Kaspars Kļavenieks
 e 
Juris Burlakovs
Juris Burlakovs
   | 30 dic 2014
Rural Sustainability Research's Cover Image
INFORMAZIONI SU QUESTO ARTICOLO
Articolo precedente
Articolo Successivo
Cita
Pubblicato online: 30 dic 2014
Pagine: 17 - 28
DOI: https://doi.org/10.2478/plua-2014-0009
Parole chiave
© by Dace Āriņa
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

1. Arina, D., Bendere, R., & Teibe, I. (2012). Pre-treatment processes of waste reducing the disposed amount of organic waste and greenhouse gas emission. In: The ISWA World Solid Waste Congress 2012, 17-19 September 2012. Florence, Italy, No. 517, 1-9. Proceedings. Florence: International Solid Waste Association.Search in Google Scholar

2. Arina, D., & Orupe, A. (2012). Characteristics of Mechanically Sorted Municipal Wastes and Their Suitability for Production of Refuse Derived Fuel. Environmental and Climate Technologies. 1(Jun), 18-23.10.2478/v10145-012-0003-0Search in Google Scholar

3. Arina, D., & Orupe, A. (2013). Comparison of municipal solid waste characteristics after separation by star and drum screen systems. In: International Scientific Conference Civil Engineering `13, 16-17 May 2013 (28), 318-322. Jelgava, Latvia: Latvia University of Agriculture.Search in Google Scholar

4. Brizga, J., Dimante, D., & Atstāja, D. (2012). Economic Assessment of Introduction of Deposit System in Latvia Depozīta sistēmas ieviešanas ekonomiskais novērtējums Latvijā. Association “Green Liberty”. Riga: Association “Green Liberty”. 1-47. Retrieved 18 May, 2014, from: http://www.zb-zeme.lv.Search in Google Scholar

5. CalRecovery & PEER Consultants (1993). Material Recovery Facility Design Manual, C.K. Smoley - CRC Press, Boca Raton, Florida, 1-176.Search in Google Scholar

6. Caputo, A.C., & Pelagagge, P.M. (2002). RDF production plants: I Design and costs. Applied Thermal Engineering. 22 (4), 423-437.10.1016/S1359-4311(01)00100-4Search in Google Scholar

7. Dāce, E., Bērziņa, A., & Bažbauers, G. (2010). Analysis of Waste Sorting Population in Latvia by Using System Dynamics Modeling. In: Proceedings of 7th International Conference on Natural Sciences and Technologies for Waste and Wastewater Treatment, Remediation, Emissions Related to Climate, Environmental and Economic Effects, Sweden, Kalmar: Linnaeus University, November 22-24, 2010, 485-494.Search in Google Scholar

8. Dāce, E., Pakere, I., & Blumberga, D. (2013). An Evaluation of Economic Aspects of the Deposit-Refund System for Packaging in Latvia. Management of Environmental Quality; An International Journal. 24 (3), 311-329.10.1108/14777831311322631Search in Google Scholar

9. Economic Analysis of Options for Managing Biodegradable Municipal Waste. (2002). Final Report to the European Commission, Copenhagen. Eunomia Research & Consulting. 1-202. Retrieved November 1, 2013, from: http://europa.eu.int.Search in Google Scholar

10. European Parliament (2008). Directive 2008/98/ EC of the European Parliament and of the Council of 19 November 2008 on Waste and Repealing certain Directives. Official Journal L 312/3, 22/11/2008, 0003-0030.Search in Google Scholar

11. Heyer, K.-U., Hupe, K., & Stegmann, R. (2001). Mechanical-biological pretreatment and energetic recovery of rdf fractions in Germany: experiences and costs. In: Kuudes Jätehuollon Tutkimusseminaari 2001 - 6th Finnish research seminar on solid waste management, 2001 (102-116). Helsinki, Finland: University of Technology Laboratory of Environmental Engineering.Search in Google Scholar

12. Kalnacs, J., Arina, D. & Murashov, A. (2013). Content and Properties of Mechanically Sorted Municipal Wastes and Their Suitability for Production of Alternative Fuel. Renewable Energy & Power Quality Journal (RE&PQJ) 11 (March), paper 8, No. 525, 1-4. Retrieved August 6, 2013, from: http://www.icrepq.com.Search in Google Scholar

13. Preparation of Documentation for Municipal Waste Incineration. Pre-feasibility Study. (2007). Kaunas University of Technology (KUT) (No.2005/24/A/P/LT), 1-81.Search in Google Scholar

14. Pubule, J., Kamenders, A., Valtere, S., & Blumberga, D. (2014). Cleaner production in biowaste management. Agronomy Research. 12(2), 575-588. ISSN: 1406-894X.Search in Google Scholar

15. Refuse Derived Fuel, Current Practice and Perspectives. (2003). Final report (B4-3040/2000/306517/MAR/E3). European Commission, 1-229.Search in Google Scholar

16. Rimaitytė, I., Denafas, G., Martuzevicius, D. & Kavaliauskas, A. (2010). Energy and Environmental Indicators of Municipal Solid Waste Incineration: toward Selection of an Optimal Waste Management System, Polish J. of Environ. Stud. 19 (5), 989-998. Retrieved August 6, 2013, from: http://www.pjoes.com.Search in Google Scholar

17. Ritzkowski, M., Heerenklage J., & Stegmann R. (2006). An overview on techniques and regulations of mechanical-biological pre-treatment of Municipal Solid Waste. Environmental Biotechnology. 2, 57-68.Search in Google Scholar

18. Screening of Waste Management Performance of EU Member States. (2012). European Commission. 1-49. Retrieved November 1, 2013, from: http://ec.europa.eu/environment/waste/studies/pdf/Screening_report.pdf.Search in Google Scholar

19. Soyez, K., & Plickert, S. (2001). Mechanical- Biological Pre-Treatment of Waste - State of the Art and Potentials of Biotechnology, 1-17, Retrieved December 8, 2012, from: http://www.gts-oekotech.deSearch in Google Scholar

20. Solid waste as a resource, Rewiew of waste Technologie. (2004). Federation of Canadian Municipalities (FCM). 1-140. Retrieved May 13, 2013, from: http://www.fcm.ca.Search in Google Scholar

21. Stegmann, R. (2005). Mechanical biological pretreatment of municipal solid waste. In: Tenth International Waste Management and Landfill Symposium, 3-7 October 2005 (1-11). Sardinia, Cagliari, Italy: CISA.Search in Google Scholar

22. Tchobanoglous, G., Theisen, H., & Vigil, S.A. (1993). Integrated Solid Waste Management: Engineering principles and management issues. USA: McGraw-Hill, Inc. 1-978.Search in Google Scholar

23. Teibe I., Bendere, R., Perova, L., & Arina, D. (2012). Mathematical models for regional solid waste management development. In: 18th International Conference Linnaeus ECOTECH 2012, November 26-28, 2012 (622-633). Sweden, Kalmar. Proceedings.Search in Google Scholar

24. Thiel, S., & Thomé-Kozmiensky, J.K. (2009). Mechanical- Biological Pre-treatment of Waste - Hope and Reality, 1-16. Retrieved May 13, 2013, from: http://www.iswa.org.Search in Google Scholar

25. Tsilemou, K., & Panagiotakopoulos, D. (2004). Estimating Costs for Solid Waste Treatment Facilities. 1-12. In: ISWA World Environmental Congress and Exhibition, 17-21 October 2004 (, Rome, Italy. Proceedings.Search in Google Scholar

26. Tsilemou, K., & Panagiotakopoulos, D. (2007). Economic Assessment of Mechanical-Biological Treatment Facilities. Aplinkos tyrimai, inžinerija ir vadyba (Environmental Research, Engineering and Management). 1(39), 55-63. ISSN 1392-1649.Search in Google Scholar

27. National Inventory Submissions 2012. (2012). United Nations Framework Contention on Climate Change (UNFCCC). 1-13. Retrieved May 13, 2013, from: http://unfccc.int/national_reports/annex_i_ghg_inventories/national_inventories_submissions/items/6598.php.Search in Google Scholar

eISSN:
2255-8535
Lingua:
Inglese
Frequenza di pubblicazione:
2 volte all'anno
Argomenti della rivista:
Life Sciences, Biotechnology, Plant Science, Ecology
Feed RSS della rivista