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All Journal Jurnal Presipitasi : Media Komunikasi dan Pengembangan Teknik Lingkungan Jurnal Ilmu Lingkungan Management of Aquatic Resources Journal (Maquares) KERN Journal of Environmental Engineering and Sustainable Technology Journal of Research and Technology Jurnal Serambi Engineering JURNAL PENDIDIKAN TAMBUSAI Journal of Community Based Environmental Engineering and Management Jurnal Pendidikan dan Konseling Jurnal Abdimas Madani dan Lestari (JAMALI) Jurnal EnviScience (Environment Science) Abdimasku : Jurnal Pengabdian Masyarakat Nusantara Science and Technology Proceedings Jurnal Abdimas Berdaya : Jurnal Pembelajaran, Pemberdayaan dan Pengabdian Masyarakat Jurnal Kesehatan Tambusai Jurnal Abdimas Kartika Wijayakusuma Envirous Environmental Science and Engineering Conference Proceeding Envirotek : Jurnal Ilmiah Teknik Lingkungan Environmental Engineering Journal ITATS Journal Serambi Engineering (JSE) Indonesian Journal of Applied Science and Technology

Novirina Hendrasarie

Program Studi Teknik Lingkungan Universitas Pembangunan Nasional “Veteran” Jawa Timur

Author-ID : 1478296

Religion Aerospace Engineering Agriculture, Biological Sciences & Forestry Arts Humanities Astronomy Automotive Engineering Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Dentistry Earth & Planetary Sciences Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Health Professions Immunology & microbiology Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Library & Information Science Materials Science & Nanotechnology Mathematics Mechanical Engineering Medicine & Pharmacology Neuroscience Nursing Physics Public Health Social Sciences Transportation Veterinary Other

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THE EFFECT OF MANGROVE DENSITY TO ESTUARY WATER QUALITY BASED ON PHYSIC-CHEMIST PARAMETERS AT WONOREJO, SURABAYA Putra, Beny Satrya Eka; Hendrasarie, Novirina
Journal of Environmental Engineering and Sustainable Technology Vol 9, No 02 (2022)
Publisher : Directorate of Research and Community Service (DRPM)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21776/ub.jeest.2022.009.02.5

Fishery in estuary make changes function of mangrove land and decreased, so that it affect water quality. This study aims to determine mangrove density and relation with the quality of wonorejo estuary waters. The method uses purposive random sampling and line plot method with a 10x10 meter plot to determine the criteria for mangrove density and water quality tests based on physic-chemical parameters and then correlated to test the effect. The results of the water quality analysis at the Wonorejo estuary with the optimum value at station 5 have an average parameter value of temperature (29°C), brightness (22 cm), current speed (0.083 m/s), TSS (55 mg/L), pH (7.36), salinity (5.5), DO (1.709 mg/L), COD (42.4 mg/L), nitrate (0.18 mg/L), and phosphate (1.045 mg/L). The criteria for mangrove density at each station include low density, medium density, and high dense density. Physic-chemical parameters related to mangrove density are temperature, brightness, salinity, and COD. Estuarine waters based on physic-chemical parameters, namely 40.3% salinity, 33.7% COD, 30.9% brightness, 30.8% temperature, 14% nitrate, 11.4% TSS, 8.1% current velocity, 1 .3% DO, and 0.1% phosphate affected by mangrove density.

WASTEWATER TREATMENT OF NPK FERTILIZER INDUSTRY USING SEQUENCING BATCH REACTOR AND GRANULAR ACTIVATED CARBON Azalia, Amelinda Thomasina; Hendrasarie, Novirina
Journal of Environmental Engineering and Sustainable Technology Vol 9, No 02 (2022)
Publisher : Directorate of Research and Community Service (DRPM)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21776/ub.jeest.2022.009.02.6

contains COD, TSS, PO4, and Total-N pollutants that can contaminate water bodies if the treatment process is not carried out first. In this study, the NPK fertilizer industry waste treatment was carried out using sequencing batch reactors (SBR) and granular activated carbon (GAC) by adding the coagulation-flocculation process as a pre-treatment so that wastewater can meet the established quality standards. In this study, the reactors were operated at HRT 12, 24, and 48 hours using a GAC mass concentration of 0.5, 1, and 2 g/L. The results show the highest reduction of COD parameters by 67%, TSS by 82%, PO4 by 45%, Total-N by 76%, optimal HRT by 48 hours, and an optimal GAC mass concentration of 2 g/L. The aeration rate is operated at 14 L/min, with a PAC concentration of 3 g/L being optimal.

PROCESSING OF COAGULATION FLOCCULATION SEQUENCING BATCH REACTOR (SBR) IN KEBON AGUNG RIVER AS CLEAN WATER Wildanum, Pinasthika Almira; Hendrasarie, Novirina
Journal of Environmental Engineering and Sustainable Technology Vol 9, No 02 (2022)
Publisher : Directorate of Research and Community Service (DRPM)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21776/ub.jeest.2022.009.02.2

River water treatment uses a Sequencing Batch Reactor (SBR) with cassava peel adsorbents, meranti wood powder, and PAC. After going through the Sequencing Batch Reactor, (SBR), it will give disinfection to reduce the levels of E. Coli and total coliform in the water. It is expected to be able to set aside levels of turbidity, color, TDS, taste, odor, total coliform, E.Coli, nitrate, nitrite, hardness, and organic matter (KMnO4). The river water to be treated comes from the coagulation-flocculation process. Making variations of HRT and adsorbent. The hydraulic retention time variations compared were 6, 9, and 12 hours. There are 3 reactors with 1 control reactor, which includes a control reactor without adsorbent and one with PAC adsorbent. The conditions chosen at the reaction stage are aerobic. The removal efficiency of the color parameter is 8.4%, the total coliform parameter is 94.6%, the parameter e.coli 95.2%, the nitrate parameter is 52.6%, the nitrite parameter is 14.3%, and the organic matter parameter is 7.8%. At the same time, the parameters have increased by 2%. The best HRT in reducing pollutant levels in this study was 12 hours HRT for the SBR reactor with cassava peel adsorbent sowing placement, 6 hours HRT for the SBR reactor with meranti wood powder adsorbent sowing placement, and 6 hours HRT for the SBR reactor with top placement PAC adsorbent. The best effectiveness of the Sequencing Batch Reactor (SBR) in treating Kebon Agung River water is by adding meranti wood powder adsorbent by placing sprinklers

PROCESSING OF COAGULATION FLOCCULATION SEQUENCING BATCH REACTOR (SBR) IN KEBON AGUNG RIVER AS CLEAN WATER Wildanum, Pinasthika Almira; Hendrasarie, Novirina
Journal of Environmental Engineering and Sustainable Technology Vol 10, No 02 (2023)
Publisher : Directorate of Research and Community Service (DRPM)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21776/ub.jeest.2023.010.02.4

River water treatment uses a Sequencing Batch Reactor (SBR) with cassava peel adsorbents, meranti wood powder, and PAC. After going through the Sequencing Batch Reactor, (SBR), it will give disinfection to reduce the levels of E. Coli and total coliform in the water. It is expected to be able to set aside levels of turbidity, color, TDS, taste, odor, total coliform, E.Coli, nitrate, nitrite, hardness, and organic matter (KMnO4). The river water to be treated comes from the coagulation-flocculation process. Making variations of HRT and adsorbent. The hydraulic retention time variations compared were 6, 9, and 12 hours. There are 3 reactors with 1 control reactor, which includes a control reactor with PAC adsorbent. The conditions chosen at the reaction stage are aerobic. The removal efficiency of the color parameter is 8.4%, the total coliform parameter is 94.6%, the parameter e.coli 95.2%, the nitrate parameter is 52.6%, the nitrite parameter is 14.3%, and the organic matter parameter is 7.8%. At the same time, the parameters have increased by 2%. The best HRT in reducing pollutant levels in this study was 12 hours HRT for the SBR reactor with cassava peel adsorbent sowing placement, 6 hours HRT for the SBR reactor with meranti wood powder adsorbent sowing placement, and 6 hours HRT for the SBR reactor with top placement PAC adsorbent. The best effectiveness of the Sequencing Batch Reactor (SBR) in treating Kebon Agung River water is by adding meranti wood powder adsorbent by placing sprinklers.

Kelimpahan Fitoplankton Di Perairan Kawasan Pantai Timur Surabaya Kartika, Sucahyaning Wahyu Trihasti; Hendrasarie, Novirina; Wibisana, Hendrata
Management of Aquatic Resources Journal (MAQUARES) Vol 11, No 1 (2024): MAQUARES
Publisher : Fakultas Perikanan dan Ilmu Kelautan, Universitas Diponegoro

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14710/marj.v11i1.28253

Kawasan Pantai Timur Surabaya merupakan kawasan yang dilindungi karena terdapat hutan mangrove pada daerah estuari dan pesisirnya. Penelitian ini bertujuan untuk mengetahui indeks biotik fitoplankton pada perairan wilayah Mangrove Wonorejo dan Gunung Anyar. Penelitian ini dilakukan pada estuari dan pesisir Pantai Timur Surabaya dan dilaksanakan pada bulan Februari – Maret 2020. Dalam penelitian ini ditentukan delapan titik sampling dengan metode purposive random sampling, dimana tiap titik sampling dilakukan pengukuran dan pengambilan sampel sebanyak 3 kali pengulangan pada tiap minggu. Daerah yang diamati yaitu Pantai Timur Surabaya wilayah Wonorejo dan Gunung Anyar. Indikator biotik kelimpahan fitoplankton yaitu indeks keanekaragaman, kemerataan, dan dominansi. Hasil penelitian menunjukkan indeks keanekaragaman 1,699-2,530, indeks kemerataan 0,588-0,912, dan indeks dominansi 0,104-0,197 di stasiun Wonorejo dan pada stasiun Gunung Anyar menunjukkan indeks keanekaragaman 1,571-2,197, indeks kemerataan 0,541-0,659, dan indeks dominansi 0,165-0,339. Kelas fitoplankton yang dominan hidup di wilayah Mangrove Wonorejo yaitu Bacillariophyceae dan wilayah Mangrove Gunung Anyar yaitu Coscinodiscophyceae. Kedua fitoplankton ini tergolong klasifikasi besar fitoplankton diatom.

Penyuluhan Pengolahan Air Tanah Yang Mengandung Kapur, Besi, dan Mangan Menggunakan Filtrasi dan Membran Reverse Osmosis di Desa Kapor, Madura Hendrasarie, Novirina; Nur Trilita, Minarni; Farichah, Himatul; Rahmad, Basuki; Azizah Affandy, Nur
Jurnal Abdimas Berdaya : Jurnal Pembelajaran, Pemberdayaan dan Pengabdian Masyarakat Vol 8, No 1 (2025): Jurnal Abdimas Berdaya
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/jab.v8i1.1049

Penyisihan Besi (Fe) dan Mangan (Mn) Terlarut dengan Memanfaatkan Adsorben Karbon Aktif Ampas Kopi Pada Air Sumur di Surabaya Nofansyah, Aldy Fajar; Hendrasarie, Novirina
Envirous Vol. 3 No. 2 (2023): Jurnal Envirous
Publisher : UPN "Veteran" Jawa Timur

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33005/envirous.v3i2.14

Air itanah iyang ibiasa idisebut iair isumur ibiasanya imengandung idua iion ikovalen, iyaitu ibesi i(Fe) idan imangan i(Mn). iMenurut ihasil ipengujian ipertama iair isumur iparameter iFe i2,5 img/L idan iMn i3,56 img/L. iFe idan iMn idalam iair ijika imelebihi ibaku imutu i(Fe i1 img/L idan iMn i0,5 img/L) idapat imenjadi ikeruh, korosif idan ineurotoksik. iTeknologi iyang iumum idigunakan iuntuk imenghilangkan iFe idan iMn iadalah iadsorpsi. iPenelitian iini ibertujuan iuntuk imemanfaatkan iampas ikopi isebagai iadsorben idengan imendegradasi iparameter iFe idan iMn isecara i ifixed ibed icolumn.. iPada ipenelitian iini ikecepatan ialir iditetapkan isebesar i10 iml/menit, idiikuti idengan ivariasi iampas ikopi i(arabika, irobusta idan ihouse iblend), ivariasi iwaktu ikontak i(20, i40, i60, i80, i120 imenit) idan iberat iadsorben. i(100 idan i200 igram). iBerdasarkan ihasil ipenelitian, iampas ikopi irobusta iyang ipaling ioptimal iadalah ipenyisihan iFe i92 i%. iBubuk ikopi ibuatan isendiri iseharga iMn i94% idengan iberat i200 igram. iNilai iabsorbansi i(qo) ipada imodel iThomas iFe iadalah i0,0885 img/g idan iMn iadalah i0,0085 img/g.

Penurunan Kadar Mikroplastik Tipe Serat Pada Limbah Laundry dengan Metode Elektrokoagulasi Rizkia, Putri Nur; Hendrasarie, Novirina
Envirous Vol. 3 No. 2 (2023): Jurnal Envirous
Publisher : UPN "Veteran" Jawa Timur

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33005/envirous.v3i2.16

Peningkatan kadar mikroplastik tipe serat pada pada perairan yang diakibatkan oleh limbah laundry dapat mengganggu ekosistem yang ada di air dan kehidupan manusia. Mikroplastik tipe serat ukuran yaitu 3 nm-15 mm, memiliki sifat hidrofobik dapat mengikat zat berbahaya seperti Dichloro Diphenyl Trichloroethane (DDT). Terdapat pengolahan yang dapat digunakan dalam menurunkan kelimpahan mikroplastik dengan proses elektrokoagulasi. Penelitian ini dilakukan untuk mengetahui efektivitas penurunan kadar mikroplastik tipe serat dengan pengolahan elektrokoagulasi dan elektroda aluminium, serta proses koagulasi flokulasi dengan koagulan PAC sebagai variabel kontrol. Proses elektrokoagulasi dilakukan dengan variasi kuat arus 6 ampere; 7 ampere; 8 ampere; dan 9 ampere. Dari penelitian didapatkan variasi kuat arus yang paling optimal yaitu 6 ampere dengan persentase removal sebesar 90% dengan nilai zeta potensial +0,421 mV. Adapun penelitian dengan proses koagulasi-flokulasi dengan koagulan PAC dengan dosis 46,4 mg/l dengan kecepatan pengadukan saat proses koagulasi 400 rpm selama 0,5 menit, flokulasi 40 rpm selama 20 menit, dan pengendapan 30 menit, persentase penurunan kadar mikroplastik 71% dengan nilai zeta potensial -7,5 mV.

Evaluasi Pengelolaan Limbah Medis Padat B3 Rumah Sakit Kelas A, B, C, dan D Azmi, Nabilah Tsabitul; Hendrasarie, Novirina
Envirous Vol. 3 No. 2 (2023): Jurnal Envirous
Publisher : UPN "Veteran" Jawa Timur

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33005/envirous.v3i2.21

Tempat salah satu penghasil limbah paling banyak adalah rumah sakit. Limbah yang terdapat dalam rumah sakit salah satu contohnya yaitu limbah medis padat. Limbah medis padat yang dihasilkan rumah sakit oleh kegiatan pelayanan medis berbentuk padat seperti: limbah benda tajam, limbah infeksius, limbah patologis, limbah toksik genetik, limbah farmasi, limbah radioaktif, dan limbah kimia. Tidak memadainya teknologi pelayanan medis, penanganan bahan dan peralatan yang tidak tepat, serta pemeliharaan peralatan yang tidak tepat adalah faktor penyebab gangguan masalah kesehatan bagi manusia oleh karena itu maksud dari dilaksanakannya penelitian ini adalah untuk menganalisis pengelolaan limbah medis padat B3 pada rumah sakit seperti pemilahan, pewadahan, pengumpulan, penyimpanan, pemusnahan, dan pengangkutan secara keseluruhan.

PEMANFAATAN LIMBAH PRODUK KAYU SEBAGAI BAHAN PEMBUATAN BIOETANOL Kurniawan, Dwi Kurniawan; Hendrasarie, Novirina
Envirous Vol. 3 No. 1 (2022): Jurnal Envirous
Publisher : UPN "Veteran" Jawa Timur

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33005/envirous.v3i1.56

Bioetanol merupakan salah satu energi alternatif berbasis biomassa. Sumber biomassa yang dapat dimanfaatkan adalah lignoselulosa dari sisa produk kayu. Konsumsi kertas dan kardus, yang merupakan produk kayu, di seluruh dunia pada tahun 2015 mencapai 410,7 juta ton. Pada penelitian ini, bioetanol diproduksi dari bahan yang berasal dari limbah produk kayu seperti kertas HVS, kardus, dan serbuk kayu. Delignifikasi dilakukan pada 50 gram bahan yang telah disiapkan, kemudian ditambahkan 500 mL H2SO4 10% selama 2 jam pada suhu 100 °C. Proses hidrolisis dengan enzim selulase 5 gram, 500 mL air pada pH 4 dan suhu 50 °C selama 4 jam. Proses fermentasi pada pembuatan bioetanol ini menggunakan Saccharomyces cerevisiae dengan variasi waktu fermentasi 8, 10 dan, 12 hari. Selain itu, juga terdapat proses destilasi-adsorpsi sebanyak 2 tahap yang menggunakan variasi jenis adsorben, yaitu zeolit 4A dan silika gel dengan lama waktu 60 menit. Hasil terbaik diperoleh pada bahan serbuk kayu, waktu fermentasi 10 hari, dan adsorben zeolit 4A, dengan kadar etanol sebesar 44,78 %.

Co-Authors Adhevada Ayu Dyah Anda Resta Pratama Ali, Munawar Ananda Iqbal Ibrahim Angelika Stephani Silalahi Anindya, Adila Anindya, Adila Putri Anugrah, Mohammad Rio Panca Ardhi, Evi Wahyu Aussie Amalia Azalia, Amelinda Thomasina Azmi, Nabilah Tsabitul Barbara Tenesia Belaon BASUKI RAHMAD Beny Satrya Eka Putra Bernadheta Donabella Ega Chindy, Andhini Dea Kirana Nurlaili Dewi Rahyuni Dheo Irfandanny Dieta, Yustity Arum Dimas Eka Mahendra Faisal Dimas Arifiansyah Farhan Athallah Ajiputra Ferlian Vida Satriaji Firra R. Firra Rosariawari Fitriani, Siti Nurista Fransiska Febriana Fransiska Febriana Hendra Usnaini Hendra Usnaini Hendrata Wibisana Imroatun Najwa Irene AA Suwandhi Irene AA Suwandhi Irma Ilham Yadaturrahmah Iwan Wahjudijanto Januar Kabul Fadilah Kalis, Ahmad Ilham Ramadhan Kartika, Sucahyaning Wahyu Trihasti Kasih, Bunga Cinta Kevin Reira Christian Kinanti, Kawista Arum Kurniawan, Dwi Kurniawan L, Rudi lham Lacta Praditya Luchmanandri, Rahmadini Mas'ulah, Silvi Minarni Nur Trilita Mochammad Yusuf Cahayaning Nugraha B Mukhammad Rifki Hendianto Munawar Ali Nabila Indah Wibisono Ningrum, Dwi Mulyati Nofansyah, Aldy Fajar Nur Anisah Nurlaili, Dea Kirana Praditya Sigit Ardisty Sitogasa Priyadarshini, Rossyda Putra, Beny Satrya Eka Putri Nur Rizkia R. Mohammad Alghaf Dienullah R., Firra Rachmasari, Syafira Nur Raden Kokoh H. Raden Kokoh Haryo Putro Rahmadini Luchmanandri Rahman, Agus Adam Ranno MR. Rizki Kurnia Putra Rizkia, Putri Nur Romadon, Syahrul Rosariawari, Firra Rr. Maulidya Permana Santosa, Bagas Aldin SQC Zakiyayasin Nisa Sucahyaning Wahyu Trihastika Kartika Susilowati Syarifudin Ahmad Syitoh, Nurma Thohiroh, Mubayyinatuth Tiara Mohamad Mirwan Wildanum, Pinasthika Almira Yayok SP Yurry Aditya Pratama zafira mauluida Zuhria Oktaviani

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