Development of lahar filtration system for recirculating aquaculture system
Issue Date
2009
Abstract
The study aimed to develop a low-cost and efficient lahar filtration system for recirculating aquaculture system. The filtration system was composed of the settling tank, the mechanical filter and the biological filter with lahar as filter media. The system was attached to a culture tank with Tilapia (Oreochromis niloticus) as fish culture and its efficiency was determined using the Box and Behnken three level-incomplete factorial design.
Fifteen experimental runs were conducted to determine the system efficiency. Results showed that as the wastewater moved from the settling tank to the biological filter, decrease in TDS (1.82%), TSS (79.17%), NH3 (71.68%) and NO2 (61.08%) were observed. On the other hand, temperature (0.44%), pH (3%), DO (44.35%) and nitrate concentration (34.46%) were increased. Except for NH3, which was significantly affected by % feeding rate, the recirculated water to the culture tank met the permissible water quality limits for culturing tilapia. The cost effectiveness of the system was determined with a payback period of 2.33 years, breakeven point of 1.31 cropping per year, benefit cost ratio of 1.06 and internal rate of return of 39.02 % which showed its financial viability.
Source or Periodical Title
Philippine Journal of Agricultural and Biosystems Engineering
ISSN
0119-7312
Volume
7
Issue
2009
Document Type
Article
College
College of Engineering and Agro-Industrial Technology (CEAT)
Physical Description
illustrations; graphs; tables
Language
English
Subject
Filters and Filtration;
Recommended Citation
Amongo, Rossana Marie C.; Resurreccion, Arsenio N.; Ella, Victor B.; Bato, Pepito M.; Paras, Fernando O. Jr; and Zubia, Omar F., "Development of lahar filtration system for recirculating aquaculture system" (2009). Journal Article. 4146.
https://www.ukdr.uplb.edu.ph/journal-articles/4146
En – AGROVOC descriptors
TANKS; NITRATES; WASTEWATER; FILTRATION; WATER QUALITY; AQUACULTURE; MANAGEMENT; VOLCANIC SOILS; DISSOLVED OXYGEN; PRODUCTION; OREOCHROMIS NILOTICUS; COST BENEFIT ANALYSIS