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  • 1
    Online Resource
    Online Resource
    Sugarcane Bioethanol Processing Plant in the Philippines: Energetics and Water Inventory
    School of Environmental Science and Management, University of the Philippines Los Banos ; 2020
    In:  Journal of Environmental Science and Management Vol. 23, No. 2 ( 2020-12-31), p. 80-88
    Details
    In: Journal of Environmental Science and Management, School of Environmental Science and Management, University of the Philippines Los Banos, Vol. 23, No. 2 ( 2020-12-31), p. 80-88
    Abstract: Biofuels production is intended to address shortage on fuel supply. This study assessed the energetics and water inventory of the Philippine bioethanol production from sugarcane, aiming to provide a definitive value from where studies for economic assessment for this system could pick up. A 30-million-liter-per-year (MLPY) processing facility was designed using local field and factory data, from surveys and immersion reports. Assessment showed that sugarcane bioethanol processing facility with co-generation and wastewater treatment units gains a net energy equivalent to 18.62 MJ L-1 of bioethanol produced, with an energy returned on energy invested ratio of 2.75. The net energy realized from the production compensates the energy expended during the construction of the bioethanol plant within about eight months of operation. Water is being used up at a rate of 2,832.22 L per L of ethanol produced or 133.60 L per MJ or 197,826.09 L per Mg of cane processed, accounting the water used for plantation and the factory. The water inventory in the construction level amounts to 952.64 ML. The production of bioethanol from sugarcane is practical, energy-wise, but its water consumption might make the industry unviable in locations where water is scarce.
    Type of Medium: Online Resource
    ISSN: 0119-1144
    URL: Issue
    URL: Journal
    URL: Article
    DOI: 10.47125/jesam/2020_2/
    DOI: 10.47125/jesam/
    DOI: 10.47125/jesam/2020_2/09
    Language: Unknown
    Publisher: School of Environmental Science and Management, University of the Philippines Los Banos
    Publication Date: 2020
    Location Call Number Limitation Availability
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    Online Resource
  • 2
    Online Resource
    Online Resource
    Energetics and Water Requirement of a Commercial- Scale Sweet Sorghum Ethanol Production
    School of Environmental Science and Management, University of the Philippines Los Banos ; 2017
    In:  Journal of Environmental Science and Management ( 2017), p. 1-11
    Details
    In: Journal of Environmental Science and Management, School of Environmental Science and Management, University of the Philippines Los Banos, ( 2017), p. 1-11
    Abstract: This study quantifies the energy balance and water requirement for ethanol production from sweet sorghum. The energy balance assessment is important to verify if the system actually achieves a positive net energy balance, while inventory of water requirement provides primary approximation of the water economy of this alternative feedstock. The boundary of the assessment is from the production of the feedstock to the products’ end-use (cradle-to-grave). All the balances were based from a 30-M L yr-1capacity commercial bioethanol plant that operates for 270 d yr-1. The net energy balance of the system was computed by accounting the total energy consumed by the materials and processes in the boundary equated with the total energy produced through the products – power and biofuel. From the assessment, it was verified that the production gains a net energy equivalent to 475,621,789.51MJ yr-1 or 15.85 MJ L-1 of ethanol produced. Since the assessment assumed that a new bioethanol facility will be put up, the analysis included the energy invested during this pre-operational period, termed as “energy debt.” Construction of the whole facility expended a total of 1,127,076,244.75MJ energy or 37.57 MJ L-1 ethanol. However, because the system gains a net energy, a payback period for the energy invested was computed by dividing the total energy debt by the net energy gain. It was deduced that energy debt can be offset or paid back within 2.37 years of operation. Meanwhile, the total water economy in the construction of the bioethanol plant amounts to 960,453.44 m3. Likewise, the whole operation consumed a total of 12,368,904,260.86 L for a year’s operation, which is equivalent to 412.30 L water L-1 ethanol produced, or 19.45 L MJ-1, or 24,541.48 L T-1 cane processed.
    Type of Medium: Online Resource
    ISSN: 0119-1144
    URL: Issue
    URL: Journal
    URL: Article
    DOI: 10.47125/jesam/2017_sp1/
    DOI: 10.47125/jesam/
    DOI: 10.47125/jesam/2017_sp1/01
    Language: Unknown
    Publisher: School of Environmental Science and Management, University of the Philippines Los Banos
    Publication Date: 2017
    Location Call Number Limitation Availability
    BibTip Others were also interested in ...
    Online Resource
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