Assessment of the Biogas Potential in the Vhembe District of Limpopo: A Case Study of Waste-to-Energy Conversion Technology

In Indonesia, the waste to energy conversion technology has been installed and operate in some landfill, such as Bantargebang landfill where applied landfill gas recovery methods. Evaluate the running process is important to optimize the installed facilities and the other potential technology. This paper aims to evaluate the running process technology in Bantargebang landfill compare with the other waste to energy technology so it can be used as a reference for upgrading technology. Evaluation using Multi Criteria Decision Making techninque with observe method Analitycal Hierarcy Process adopt energy (energy content and net electrical output), environment (MSW reduction and GHG emission), and economic (initial cost and operation maintenance cost) as criterions. The results shows that the anaerobic digestion as alternative technology is the best technology with total point 2.71, followed by inceneration pelletization at second rank with total point 2.70, and running process landfill gas recovery at third rank with total point 2.56.

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Review of Energy Conversion Technology using Magnetohydrodynamics

IEEJ Transactions on Power and Energy ◽

10.1541/ieejpes.136.769 ◽

2016 ◽

Vol 136 (10) ◽

pp. 769-772 ◽

Cited By ~ 2

Author(s):

Toru Sasaki ◽

Nobuhiro Harada ◽

Takashi Kikuchi ◽

Kazumasa Takahashi

Keyword(s):

Energy Conversion ◽

Conversion Technology

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Optimization of Low Head Axial-Flow Turbines for an Overtopping BReakwater for Energy Conversion: A Case Study

Energies ◽

10.3390/en14154618 ◽

2021 ◽

Vol 14 (15) ◽

pp. 4618

Author(s):

Antonio Mariani ◽

Gaetano Crispino ◽

Pasquale Contestabile ◽

Furio Cascetta ◽

Corrado Gisonni ◽

...

Keyword(s):

Energy Conversion ◽

Control Strategy ◽

Energy Production ◽

San Antonio ◽

Axial Flow ◽

Complex Process ◽

Low Head ◽

Wave Power Conversion ◽

And Control

Overtopping-type wave power conversion devices represent one of the most promising technology to combine reliability and competitively priced electricity supplies from waves. While satisfactory hydraulic and structural performance have been achieved, the selection of the hydraulic turbines and their regulation is a complex process due to the very low head and a variable flow rate in the overtopping breakwater set-ups. Based on the experience acquired on the first Overtopping BReakwater for Energy Conversion (OBREC) prototype, operating since 2016, an activity has been carried out to select the most appropriate turbine dimension and control strategy for such applications. An example of this multivariable approach is provided and illustrated through a case study in the San Antonio Port, along the central coast of Chile. In this site the deployment of a breakwater equipped with OBREC modules is specifically investigated. Axial-flow turbines of different runner diameter are compared, proposing the optimal ramp height and turbine control strategy for maximizing system energy production. The energy production ranges from 20.5 MWh/y for the smallest runner diameter to a maximum of 34.8 MWh/y for the largest runner diameter.

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