PRODUKSI HIDROGEL DARI SELULOSA TANAMAN FROGBIT (LIMNOBIUM LAEVIGATUM) HASIL FITOREMEDIASI LIMBAH KOLAM IKAN LELE
Catfish pond wastewater (CPW) often causes environmental issues due to excessive nutrients and organic matter, leading to organic pollution and eutrophication in water bodies. This study evaluates the potential of Limnobium laevigatum as a phytoremediator for CPW treatment. Phytoremediation was...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/83053 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Catfish pond wastewater (CPW) often causes environmental issues due to
excessive nutrients and organic matter, leading to organic pollution and
eutrophication in water bodies. This study evaluates the potential of Limnobium
laevigatum as a phytoremediator for CPW treatment. Phytoremediation was
conducted using a free water surface system in plastic containers with CPW
dilutions of 0%, 10%, and 25% over 21 days. Results show that phytoremediation
using L. laevigatum reduced organic content and improved CPW quality. The
25% concentration demonstrated the highest removal percentage (RP), with
reductions of 92.53% for TSS, 42.19% for ammonia, 27.78% for nitrite, 34.84%
for nitrate, 45.21% for COD, and 44.67% for BOD. Significant increases in pH
and DO were also observed. Optimal plant growth occurred in the 10% waste
variation, with a Relative Growth Rate (RGR) of 0.13 g/day, higher than the
control (0.07 g/day) and the 25% concentration (0.08 g/day). The
phytoremediation-derived L. laevigatum biomass was processed into hydrogel
biocomposites to enhance soil moisture retention, with cellulose variations of 0%,
5%, and 10%. Higher cellulose content in the hydrogel biocomposite improved
the swelling ratio (SR). The hydrogel with 10% cellulose showed the highest SR at
60%, while the hydrogel without ocellulose had an SR of 33.3%. The hydrogels
degraded over 30 days. Moisture tests indicated that cellulose-containing
hydrogels further improved soil moisture retention. The study demonstrates that
L. laevigatum and cellulose-based hydrogels offer potential environmentally
friendly solutions for CPW management and soil moisture enhancement. |
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