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1.
Cioca, L.I., Ivascu, L., Rada, E.C., Torretta, V. & Ionescu, G., Sustainable development and technological impact on CO2 reducing conditions in Romania. Sustainability, 7(2), pp. 1637–1650, 2015.
2.
Rada, E.C., Ragazzi, M., Ionescu, G., Merler, G., Moedinger, F., Raboni, M. & Torretta, V., Municipal solid waste treatment by integrated solutions: energy and environmental balances. Energy Procedia, 50, pp. 1037–1044, 2014. [Crossref]
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Torretta, V., Ionescu, G., Raboni, M. & Merler, G., The mass and energy balance of an integrated solution for municipal solid waste treatment. WIT Transactions on Ecology and the Environment, 180, pp. 151–161, 2014.
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Ionescu, G., Rada, E.C., Ragazzi, M., Mărculescu, C., Badea, A. & Apostol, T., Integrated municipal solid waste scenario model using advanced pretreat- ment and waste to energy processes. Energy Conversion and Management, 76, pp. 1083–1092, 2013.
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Patrascu, R., Minciuc, E., Tutica, D., Norisor, M., Ionescu, G. & Stefani, P., Reduc- ing environmental impact through efficient utilisation of biomass in a cogeneration plant. case study – energy supply of an industrial company through biomass utilisation in a cogeneration plant with internal combustion engine. Quality - Access to Success, 15(138), pp. 84–88, 2014.
6.
Ionescu, G., Rada, E.C. & Cioca, L.I., Municipal solid waste sorting and treatment schemes for maximizing material and energy recovery in a latest EU member. Environ- mental Engineering and Management Journal, 14(11), pp. 2501–2746, 2015.
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Kathiravale, S., Yunus, M.N.M., Sopian, K., Samsuddin, A.H. & Rahman, R.A., Model- ing the heating value of municipal solid waste. Fuel, 82(9), pp. 1119–1125, 2003. [Crossref]
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Ragazzi, M. & Rada, E.C., Multi-step approach for comparing the local air pollution contributions of conventional and innovative MSW thermo-chemical treatments. Che- mosphere, 89(6), pp. 694–701, 2012. [Crossref]
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Rada, E.C., Ragazzi, M., Zardi, D. & Laiti, L., PCDD/F environmental impact from municipal solid waste bio-drying plant. Chemosphere, 84(3), pp. 289–295, 2011. [Crossref]
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Rada, E.C., Ragazzi, M. & Malloci, E., Role of levoglucosan as a tracer of wood com- bustion in an alpine region. Environmental Technology, 33(9), pp. 989–994, 2012. [Crossref]
11.
Rada, E.C., Ragazzi, M. & Badea, A., MSW bio-drying: design criteria from 10 years research. UPB Scientific Bulletin, Serie D, 74(3), pp. 209–216, 2012.
12.
Velis, C.A., Wagland, S., Longhurst, P., Robson, B., Sinfield, K., Wise, S. & Pollard, S., Solid recovered fuel: materials flow analysis and fuel property development during the mechanical processing of biodried waste. Environmental Science and Technology, 47(6), pp. 2957–2965, 2013.
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http://epidemiologia.ulss20.verona.it/data/55/Eventi/2016/050516/Ragazzi_ 050516. pdf (accessed May 2016).
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Open Access
Research article

Environmental Pollution from Waste and Biomass Energy Generation

e.c. rada
University of Trento, Civil, Environmental and Mechanical Department, Trento, Italy
International Journal of Energy Production and Management
|
Volume 2, Issue 1, 2017
|
Pages 1-7
Received: N/A,
Revised: N/A,
Accepted: N/A,
Available online: N/A
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Abstract:

In the sectors of waste and biomass to energy, some debatable paradigms persist both among the spe- cialists and among the population, concerning the performances of a few energy options. The present article wants to give a contribution to clarify the debate related to three cases: (a) local impact of waste to energy plants, from conventional solutions to innovative ones (thermochemical processes); (b) local impact of Solid Recovered Fuel generation before energy exploitation; (c) local impact of combustion of wood. Three key articles have been selected from the Author’s production (more than one hundred Scopus indexed works) in order to perform a deeper analysis. Results demonstrate that, changing the perspective, some paradigms on the environmental performances of a few waste and biomass options for energy generation must be at least modified.

Keywords: Air, Biomass, Emission, Pollution, Waste

1. Introduction

2. Materials and Methods

3. Results and Discussion

4. Conclusions and Outlooks

References
1.
Cioca, L.I., Ivascu, L., Rada, E.C., Torretta, V. & Ionescu, G., Sustainable development and technological impact on CO2 reducing conditions in Romania. Sustainability, 7(2), pp. 1637–1650, 2015.
2.
Rada, E.C., Ragazzi, M., Ionescu, G., Merler, G., Moedinger, F., Raboni, M. & Torretta, V., Municipal solid waste treatment by integrated solutions: energy and environmental balances. Energy Procedia, 50, pp. 1037–1044, 2014. [Crossref]
3.
Torretta, V., Ionescu, G., Raboni, M. & Merler, G., The mass and energy balance of an integrated solution for municipal solid waste treatment. WIT Transactions on Ecology and the Environment, 180, pp. 151–161, 2014.
4.
Ionescu, G., Rada, E.C., Ragazzi, M., Mărculescu, C., Badea, A. & Apostol, T., Integrated municipal solid waste scenario model using advanced pretreat- ment and waste to energy processes. Energy Conversion and Management, 76, pp. 1083–1092, 2013.
5.
Patrascu, R., Minciuc, E., Tutica, D., Norisor, M., Ionescu, G. & Stefani, P., Reduc- ing environmental impact through efficient utilisation of biomass in a cogeneration plant. case study – energy supply of an industrial company through biomass utilisation in a cogeneration plant with internal combustion engine. Quality - Access to Success, 15(138), pp. 84–88, 2014.
6.
Ionescu, G., Rada, E.C. & Cioca, L.I., Municipal solid waste sorting and treatment schemes for maximizing material and energy recovery in a latest EU member. Environ- mental Engineering and Management Journal, 14(11), pp. 2501–2746, 2015.
7.
Kathiravale, S., Yunus, M.N.M., Sopian, K., Samsuddin, A.H. & Rahman, R.A., Model- ing the heating value of municipal solid waste. Fuel, 82(9), pp. 1119–1125, 2003. [Crossref]
8.
Ragazzi, M. & Rada, E.C., Multi-step approach for comparing the local air pollution contributions of conventional and innovative MSW thermo-chemical treatments. Che- mosphere, 89(6), pp. 694–701, 2012. [Crossref]
9.
Rada, E.C., Ragazzi, M., Zardi, D. & Laiti, L., PCDD/F environmental impact from municipal solid waste bio-drying plant. Chemosphere, 84(3), pp. 289–295, 2011. [Crossref]
10.
Rada, E.C., Ragazzi, M. & Malloci, E., Role of levoglucosan as a tracer of wood com- bustion in an alpine region. Environmental Technology, 33(9), pp. 989–994, 2012. [Crossref]
11.
Rada, E.C., Ragazzi, M. & Badea, A., MSW bio-drying: design criteria from 10 years research. UPB Scientific Bulletin, Serie D, 74(3), pp. 209–216, 2012.
12.
Velis, C.A., Wagland, S., Longhurst, P., Robson, B., Sinfield, K., Wise, S. & Pollard, S., Solid recovered fuel: materials flow analysis and fuel property development during the mechanical processing of biodried waste. Environmental Science and Technology, 47(6), pp. 2957–2965, 2013.
13.
http://epidemiologia.ulss20.verona.it/data/55/Eventi/2016/050516/Ragazzi_ 050516. pdf (accessed May 2016).
Cite this:
APA Style
IEEE Style
BibTex Style
MLA Style
Chicago Style
GB-T-7714-2015
Rada, E. C. (2017). Environmental Pollution from Waste and Biomass Energy Generation. Int. J. Energy Prod. Manag., 2(1), 1-7. https://doi.org/10.2495/EQ-V2-N1-1-7
E. C. Rada, "Environmental Pollution from Waste and Biomass Energy Generation," Int. J. Energy Prod. Manag., vol. 2, no. 1, pp. 1-7, 2017. https://doi.org/10.2495/EQ-V2-N1-1-7
@research-article{Rada2017EnvironmentalPF,
title={Environmental Pollution from Waste and Biomass Energy Generation},
author={E.C. Rada},
journal={International Journal of Energy Production and Management},
year={2017},
page={1-7},
doi={https://doi.org/10.2495/EQ-V2-N1-1-7}
}
E.C. Rada, et al. "Environmental Pollution from Waste and Biomass Energy Generation." International Journal of Energy Production and Management, v 2, pp 1-7. doi: https://doi.org/10.2495/EQ-V2-N1-1-7
E.C. Rada. "Environmental Pollution from Waste and Biomass Energy Generation." International Journal of Energy Production and Management, 2, (2017): 1-7. doi: https://doi.org/10.2495/EQ-V2-N1-1-7
RADA EC. Environmental Pollution from Waste and Biomass Energy Generation[J]. International Journal of Energy Production and Management, 2017, 2(1): 1-7. https://doi.org/10.2495/EQ-V2-N1-1-7