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All Journal Radinka Journal of Science and Systematic Literature Review International Journal of Global Sustainable Research
Vimukthi Vithanage
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Agriculture, Biological Sciences & Forestry Humanities Chemical Engineering, Chemistry & Bioengineering Computer Science & IT Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Mathematics Public Health

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Technical Evaluation of Pumps in the Bio Energy Sector : Performance ,Efficiency and Sustinability Considerations Hasith Perera; Shen Hosan; Dasith Wijesekara; Vimukthi Vithanage; Prasad Amarasingha; Niroshan Gunawardhana; Kaveenga Koswattage
International Journal of Global Sustainable Research Vol. 2 No. 11 (2024): November 2024
Publisher : MultiTech Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59890/ijgsr.v2i11.2920

Abstract

The bioenergy sector absolutely depends on pumps to manage fluid movement across anaerobic digestion as well as biofuel manufacturing and biomass processing activities. The research examines both efficiencies along with sustainability measures and performance qualities of bioenergy pumps by analyzing fundamental operational characteristics involving material endurance and power utilization for managing corrosive and viscous biomaterials. The research explores updated pump technology medicines positive displacement along with centrifugal pumps in order to evaluate their influence on procedure reliability and biological gas production rates and energy utilization. This analysis focuses on the comparison between standard and optimized pump solutions through a study of their whole life value and nature conservation aspects. Optimized selection of pumps combined with operational strategies will help this study make bioenergy systems more sustainable through decreased energy waste and increased process efficiency. The research presents recommendations about enhancing future designs of pumping systems and their implementation methods
Review on Comparison of Single Stage and Multistage and Dry-Wet Anaerobic Digestion for Biomethane Production and Evaluation the Waste Management Strategy Perera, Hasith; Shen Hosan; Vimukthi VITHANAGE; Dasith WIJESEKARA; Niroshan GUNAWARDHANA; Vimukthi THARAKA; Koswattage K. R; Shakya ABEYSINGHE
RADINKA JOURNAL OF SCIENCE AND SYSTEMATIC LITERATURE REVIEW Vol. 3 No. 1 (2025): Radinka Journal of Science and Systematic Literature Review
Publisher : RADINKA JAYA UTAMA PUBLISHER

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56778/rjslr.v3i1.457

Abstract

The circular bioeconomy depends on anaerobic digestion technology to obtain energy from waste materials while minimizing ecological contamination. The research looks at how well single-stage and multi-stage anaerobic digestion systems work, comparing their advantages and disadvantages by examining design elements, stability conditions, and the amount of biogas produced from different types of feedstock. A comparison study evaluated the benefits together with restrictive factors and real-world uses of single-stage and multi-stage anaerobic digestion systems. The examination used microbial stability as well as biogas production rates, cost-effectiveness, and compatibility with various feedstocks to determine the various factors. Single-stage anaerobic digestion systems produced cost-effective operation along with simple management, which benefits small-scale facilities operating on uniform organic waste. Their microbial stability was restricted, which eventually led to diminished biogas production output. Multi-stage anaerobic digestion systems are more expensive to set up and keep running, but they allow for better control of the process and produce more biogas when dealing with a mix of agricultural waste and regular trash. System design stands as a fundamental element that determines the results of anaerobic digestion processes. The selection between single-stage or multi-stage systems depends on whether waste streams are simple and uniform or complex. Future development of anaerobic digestion technology requires concentration on lowering operating expenses along with the implementation of time-sensitive monitoring equipment and integration with clean energy facilities. The development of these steps represents fundamental requirements for establishing the sustainable scalability of anaerobic digestion systems as the primary waste management technology.
Co-Authors Dasith Wijesekara Hasith Perera Kaveenga Koswattage Koswattage K. R Niroshan Gunawardhana Perera, Hasith Prasad Amarasingha Shakya ABEYSINGHE Shen Hosan Vimukthi THARAKA