•  English
    • Persian
    • English
  •   Login
  • Ferdowsi University of Mashhad
  • |
  • Information Center and Central Library
    • Persian
    • English
  • Home
  • Source Types
    • Journal Paper
    • Ebook
    • Conference Paper
    • Standard
    • Protocol
    • Thesis
  • Use Help
Search 
  •   FUM Digital Library
  • Search
  •   FUM Digital Library
  • Search
  • All Fields
  • Title
  • Author
  • Year
  • Publisher
  • Subject
  • Publication Title
  • ISSN
  • DOI
  • ISBN
Advanced Search
JavaScript is disabled for your browser. Some features of this site may not work without it.

Search

Show Advanced FiltersHide Advanced Filters

Filters

Use filters to refine the search results.

Now showing items 1-5 of 5

    • Relevance
    • Title Asc
    • Title Desc
    • Year Asc
    • Year Desc
    • 5
    • 10
    • 20
    • 40
    • 60
    • 80
    • 100
  • Export
    • CSV
    • RIS
    • Sort Options:
    • Relevance
    • Title Asc
    • Title Desc
    • Issue Date Asc
    • Issue Date Desc
    • Results Per Page:
    • 5
    • 10
    • 20
    • 40
    • 60
    • 80
    • 100

    Effect of catholyte flow rate on the performance of two sediment microbial fuel cells in an open channel 

    Type: Conference Paper
    Author : مهلا رهدار; رضا قشلاقی; محمود اخوان مهدوی; mahla rahdar; Reza Gheshlaghi; Mahmood Akhavan Mahdavi
    Year: 2019
    Abstract:

    the position of this bio-resource in research areas. Sediment microbial fuel cell is an electrochemical system that treats the contaminants in the sediments in addition to producing electricity, using bacterial interactions in sediment. Knowledge...

    Electricity generation of stacked sediment microbial fuel cells in an open channel 

    Type: Conference Paper
    Author : الهام اباذریان; رضا قشلاقی; محمود اخوان مهدوی; Elham Abazarian; Reza Gheshlaghi; Mahmood Akhavan Mahdavi
    Year: 2018
    Abstract:

    The aim of this study was to investigate the performance of two sediment microbial fuel cells (SMFCs) placed in an open channel in different configurations including single mode, series mode and parallel mode. The SMFC performances were analyzed...

    Study of the performance of three sediment microbial fuel cells in an open channel 

    Type: Conference Paper
    Author : الهام اباذریان; رضا قشلاقی; محمود اخوان مهدوی; Elham Abazarian; Reza Gheshlaghi; Mahmood Akhavan Mahdavi
    Year: 2015
    Abstract:

    In this research, performance of three sediment microbial fuel cells (SMFC) in an open channel has been investigated in single and series mode in terms of electricity generation and voltage production. In single mode, the maximum power density...

    Electricity generation from river sediments using a partitioned open channel sediment microbial fuel cell 

    Type: Journal Paper
    Author : محمّدعلی غازی آذری; رضا قشلاقی; محمود اخوان مهدوی; الهام اباذریان; mohammad ali ghazi azari; Reza Gheshlaghi; Mahmood Akhavan Mahdavi; Elham Abazarian
    Year: 2017
    Abstract:

    A partitioned open channel sediment microbial fuel cell (POCSMFC) was constructed and the possibility of connecting two conventional sediment microbial fuel cells (SMFCs) at different water flow rates was examined. At high water flow rate of 120 L h...

    The effect of number and configuration of sediment microbial fuel cells on their performance in an open channel architecture 

    Type: Journal Paper
    Author : الهام اباذریان; رضا قشلاقی; محمود اخوان مهدوی; Elham Abazarian; Reza Gheshlaghi; Mahmood Akhavan Mahdavi
    Year: 2016
    Abstract:

    The aim of this study is to investigate the effect of the number of sediment microbial fuel cells (SMFCs)

    with different configurations on the electricity generation in open channels. For this purpose, two open

    channels, one with three...

    Author

    Year

    Keywords

    ... View More

    Type

    Language (ISO)

    Content Type

    Publication Title

    • About Us
    نرم افزار کتابخانه دیجیتال "دی اسپیس" فارسی شده توسط یابش برای کتابخانه های ایرانی | تماس با یابش
    DSpace software copyright © 2019-2022  DuraSpace