Claim Missing Document
Check
Articles

Found 2 Documents
Search

Penilaian Kinerja dan AKNOP Saluran Tertutup Drainase di Jalan R.A Basuni Kabupaten Mojokerto: Performance Assessment and AKNOP of Closed Drainage Channels on R.A Basuni Road, Mojokerto Regency Rania Nurlita Sari
Envirous Vol. 6 No. 1 (2025): Jurnal Envirous
Publisher : UPN "Veteran" Jawa Timur

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33005/envirous.v5i2.352

Abstract

Sistem drainase perkotaan berfungsi menampung, meresapkan, dan mengalirkan air hujan menuju badan air penerima sesuai Permen PU No.12/PRT/M/2014. Namun, banjir berulang di Jalan RA Basuni, Desa Jampirogo, Kabupaten Mojokerto menunjukkan kinerja drainase yang kurang optimal. Penelitian ini bertujuan mengevaluasi kinerja saluran drainase tertutup dan menghitung Angka Kebutuhan Nyata Operasi dan Pemeliharaan (AKNOP) untuk mendukung perbaikan berkelanjutan. Metode yang digunakan meliputi survei lapangan, inventarisasi komponen teknis, dan penilaian kinerja berdasarkan kondisi fisik, sedimen, serta bangunan pelengkap. Hasil penilaian menunjukkan indeks kondisi rata-rata 3,125 (kapasitas fungsi 51%–75%), yang memerlukan pemeliharaan rutin. Estimasi total biaya pemeliharaan rutin saluran sepanjang 80 meter adalah Rp 53.746.944. Rekomendasi utama adalah memprioritaskan pemeliharaan bangunan penangkap air dan manhole yang kondisinya di bawah standar untuk meningkatkan kinerja drainase dan mengurangi risiko banjir. Urban drainage systems function to collect, infiltrate, and convey stormwater to receiving water bodies in accordance with Ministry of Public Works Regulation No.12/PRT/M/2014. However, recurring floods along RA Basuni Street, Jampirogo Village, Mojokerto Regency, indicate suboptimal drainage performance. This study aims to evaluate the performance of the closed drainage network and calculate the Actual Operation and Maintenance Needs (AKNOP) to support sustainable improvements. The methodology includes field surveys, technical component inventory, and performance assessment based on physical conditions, sediment accumulation, and ancillary structures. The assessment yielded an average condition index of 3.125, indicating a functional capacity of 51%–75%, which requires routine maintenance. The estimated total maintenance cost for 80 meters of closed drainage is IDR 53,746,944. The main recommendation is to prioritize the maintenance of water catchment structures and manholes below standard conditions to improve drainage performance and reduce flood risks.
Analisis Neraca Massa Penyisihan Ion Timbal (Pb²⁺) oleh Bioadsorben Daun Rami pada Sistem Adsorpsi Batch Rania Nurlita Sari; Raden Kokoh Haryo Putro; Yerry Kahaditu Firmansyah
Jurnal Sains dan Teknologi Vol. 5 No. 1 (2026): Juni : Jurnal Sains dan Teknologi
Publisher : Fakultas Teknik Universitas Cenderawasih

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58169/saintek.v5i1.1116

Abstract

Lead (Pb²⁺) contamination in wastewater is a major environmental concern due to its toxicity, persistence, and ability to accumulate in living organisms. Adsorption using biomass-based materials has been developed as an alternative treatment method because it is efficient, economical, and environmentally friendly. This study aimed to analyze the effect of bioadsorbent dosage and contact time on Pb²⁺ removal efficiency and evaluate Pb²⁺ mass distribution using mass balance analysis in a batch adsorption system. Ramie leaf (Boehmeria nivea) was utilized as a bioadsorbent due to its lignocellulosic content, which provides active sites for metal ion adsorption. The research was conducted experimentally through bioadsorbent preparation, chemical activation, and batch adsorption using artificial Pb²⁺ solutions with variations in bioadsorbent dosage and contact time. Pb²⁺ concentrations before and after adsorption were analyzed using Atomic Absorption Spectroscopy (AAS). The obtained data were used to determine removal efficiency and Pb²⁺ distribution between the liquid phase and bioadsorbent. The results showed that ramie leaf bioadsorbent effectively reduced Pb²⁺ concentration, with the optimum condition obtained at 4 g/L bioadsorbent dosage and 90 minutes contact time, achieving 98.46% removal efficiency. Mass balance analysis indicated that Pb²⁺ ions were successfully transferred from the solution phase onto the bioadsorbent surface. These findings demonstrate that ramie leaf bioadsorbent has potential as a sustainable alternative material for heavy metal removal in wastewater treatment.