Waste to Energy Prime Mover Efficiencies for Commercially Available Technology

Lasode, Aduramo
Northrop, William
2020-03-27
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https://doi.org/10.13020/31n4-hg68
 https://hdl.handle.net/11299/212269
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Collection period

2019-07-01
2019-11-01

Date completed

2019-12-01

Date updated

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Volume Title

Title

Waste to Energy Prime Mover Efficiencies for Commercially Available Technology

Published Date

2020-03-27

Authors

Group

University of Minnesota Thomas E Murphy Engine Lab

Author Contact

Lasode, Aduramo
lasod002@umn.edu

Type

Dataset
Survey Data-Quantitative
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Abstract

The data provides a collected set of information on electric power rating and efficiency for commercially available prime movers in waste to energy applications. The five main technologies in focus are: steam turbines, gas turbines, microturbines, reciprocating internal combustion engines, and fuel cells (specifically solid oxide). The technology data points collected are systems that can use fuel with components from biogas (methane, hydrogen, etc) generated during anaerobic waste treatment. The data set provides a commercial preview of each technology that could guide potential use in different ranges based on desired electric output (and required power input).

Description

The data here is compiled information on efficiency and electric power capacity of prime mover technologies commercially available. Information on five main technologies are provided- Steam Turbine, Gas Turbine, MicroTurbine, Reciprocating Internal Combustion Engine and Fuel Cell (mostly Solid Oxide). Both .csv files contain the same information, but organized differently.

Referenced by

(accepted for conference). Applicability of Energy Recovery Technologies for Wastewater Treatment

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License

CC0 1.0 Universal
 http://creativecommons.org/publicdomain/zero/1.0/

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Data Repository for U of M (DRUM)

Funding information

MnDRIVE- Environment program at the University of Minnesota

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Suggested citation

Lasode, Aduramo; Northrop, William. (2020). Waste to Energy Prime Mover Efficiencies for Commercially Available Technology. Retrieved from the Data Repository for the University of Minnesota (DRUM), https://doi.org/10.13020/31n4-hg68.

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WasteToEnergyPrimeMoverTechEfficiencyData_Raw.csv
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(35.28 KB)

WasteToEnergyPrimeMoverTechEfficiencyData_Tidy.csv
Data for analysis
(50.29 KB)

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