Publications
Power generation from slaughterhouse waste materials. An emergy accounting assessment Journal Article
Santagata, Remo; Viglia, Silvio; Fiorentino, Gabriella; Liu, Gengyuan; Ripa, Maddalena
In: Journal of Cleaner Production, 223 , pp. 536–552, 2019, ISSN: 09596526.
Abstract | Links | BibTeX | Tags: Animal by-products, Bio-refinery, Electricity generation, Emergy Accounting, Resource recovery, Waste management
@article{Santagata2019,
title = {Power generation from slaughterhouse waste materials. An emergy accounting assessment},
author = {Remo Santagata and Silvio Viglia and Gabriella Fiorentino and Gengyuan Liu and Maddalena Ripa},
url = {https://linkinghub.elsevier.com/retrieve/pii/S0959652619308376},
doi = {10.1016/j.jclepro.2019.03.148},
issn = {09596526},
year = {2019},
date = {2019-06-01},
journal = {Journal of Cleaner Production},
volume = {223},
pages = {536--552},
publisher = {Elsevier},
abstract = {The linear path “extraction-production-consumption-waste” imposed by humans to natural ecosystems, where all material flows are instead circular, has become unsustainable. Understanding the potential value of some of these “by-products” in order to exploit them effectively in a biorefinery perspective, may help overcoming resource shortages and decrease environmental impacts. This study investigates energy and resource restoration from animal by-products. The slaughterhouse waste undergoes a rendering process to separate residual meal and fat. The latter is combusted in a co-generation plant to produce electricity and heat. The process is carefully assessed using Emergy Accounting approach with the aim of evaluating benefits and environmental load of the process considering the advantages achieved compared with the demand for ecosystem services and natural capital depletion. Moreover, the case aims at exploring three different methodological assumptions referring to the upstream burdens carried by the waste management system, proposing a modified exergy-based allocation rule. The electricity generated shows performances in terms of Unit Emergy Values ranging between 2.7E+05 sej/J, 2.2E+06 sej/J and 3.1E+07 sej/J among the different cases investigated, comparable to power from fossil fuels and renewables sources, and it provides an environmentally sound alternative to conventional waste disposal.},
keywords = {Animal by-products, Bio-refinery, Electricity generation, Emergy Accounting, Resource recovery, Waste management},
pubstate = {published},
tppubtype = {article}
}
The linear path “extraction-production-consumption-waste” imposed by humans to natural ecosystems, where all material flows are instead circular, has become unsustainable. Understanding the potential value of some of these “by-products” in order to exploit them effectively in a biorefinery perspective, may help overcoming resource shortages and decrease environmental impacts. This study investigates energy and resource restoration from animal by-products. The slaughterhouse waste undergoes a rendering process to separate residual meal and fat. The latter is combusted in a co-generation plant to produce electricity and heat. The process is carefully assessed using Emergy Accounting approach with the aim of evaluating benefits and environmental load of the process considering the advantages achieved compared with the demand for ecosystem services and natural capital depletion. Moreover, the case aims at exploring three different methodological assumptions referring to the upstream burdens carried by the waste management system, proposing a modified exergy-based allocation rule. The electricity generated shows performances in terms of Unit Emergy Values ranging between 2.7E+05 sej/J, 2.2E+06 sej/J and 3.1E+07 sej/J among the different cases investigated, comparable to power from fossil fuels and renewables sources, and it provides an environmentally sound alternative to conventional waste disposal.
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