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Pendampingan Penerapan Keselamatan dan Kesehatan Kerja bagi Tim Laboratorium di Lingkungan Fakultas Teknik Universitas Sriwijaya Fitriani, Heni; Yuono, Agus Lestari; Iryani, Sakura Yulia; Indriyati, Citra; Sidik, Muhammad Abu Bakar
Karya Kesehatan Journal of Community Engagement Vol 6 No 1 (2025): Karya Kesehatan Journal of Community Engangement
Publisher : Sekolah Tinggi Ilmu Kesehatan Karya Kesehatan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46233/k2jce.v6i1.1181

Untuk menjaga keselamatan dan kesehaan kerja (K3) selama beraktivitas di dalam laboratorium penting untuk dilakukan K3 laboratorium yang jelas dan komprehensif. Tindakan keselamatan kerja ini harus disertai dengan cara kerja yang baik dan harus dipatuhi oleh seluruh teknisi laboratorium. Tahapan bekerja di laboratorium dimulai dengan memahami peraturan kesehatan dan keselamatan kerja, kepatuhan terhadap peraturan berpakaian, langkah-langkah penanganan bahan kimia dan peralatan laboratorium secara aman, dan pembuangan limbah yang tepat. Saat ini mayoritas laboratorium yang ada di Fakultas Teknik Universitas Sriwijaya belum sepenuhnya menerapkan K3. Hal ini terbukti masih kurangnya fasilitas, peralatan dan rambu-rambu K3 yang ada di lingkungan sekitar. Terlebih lagi tenaga laboran yang meliputi kepala laboratorium, asisten lab serta teknisi laboratorium belum pernah mendapatkan pelatihan terkait K3 maupun sertifikasi K3. Oleh karena itu dipandang perlu untuk melakukan pendampingan dan bimbingan teknis terkait penerapan K3 di laboratorium dan lingkungan Fakultas Teknik Unsri.

Training on the Utilization of Green Grass Jelly For Food and Beverage Ingredients: Participatory Training-Based Intervention Sutiharni, Sutiharni; Handayani, Dewi; Indriyani, Indriyani; Umar, Najirah; Apriyanto, Mulono; Indriyati, Citra; Anitasar, Bestfy; Lubis, Siti Rahmah Hidayatullah; Handoko, Lukman
Jurnal Medika: Medika Vol. 4 No. 3 (2025)
Publisher : LPPM Universitas Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/8z0kh213

This community service program aimed to empower local communities by enhancing their knowledge and skills in utilizing green grass jelly (Cyclea barbata Miers) as an alternative ingredient for healthy food and beverage products. Conducted over three days, the training involved 12 participants with diverse backgrounds, including homemakers, youth, and micro-entrepreneurs. The program adopted a participatory training approach that combined theoretical knowledge with hands-on practice, including plant identification, jelly extraction techniques, hygiene practices, and product innovation. Pre- and post-training assessments revealed significant improvement in participants’ understanding and abilities. Initially, only 25% of participants were familiar with the plant's benefits and usage. After the training, 100% of participants demonstrated comprehension of the nutritional value and processing methods, and 75% successfully created product variants such as fruit-infused jelly drinks and herbal puddings. The training encouraged creativity and showed the potential of green grass jelly as a sustainable, low-cost, and health-promoting ingredient suitable for micro-entrepreneurial ventures. The program concluded that community-based food innovation training can serve as an effective model for promoting local resources, enhancing food security, and developing rural economies. It also emphasized the importance of combining traditional knowledge with modern food processing techniques to generate added value and marketable products.

ANALISIS DEBIT EMITTER PADA SISTEM IRIGASI VERTICAL GARDEN Daud, Arifin; Indriyati, Citra; Selvia, Ega Hilwa
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 10 No. 1 (2022): RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi
Publisher : Universitas Bina Taruna Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37971/radial.v10i1.254

Abstrak: Analisis Debit Emitter Pada Sistem Irigasi Vertical Garden. Vertical garden merupakan salah satu solusi untuk mengurangi dampak pemanasan global. Banyak faktor penting yang perlu diperhatikan dalam perencanaan vertical garden, salah satunya adalah sistem irigasi. Penelitian ini menggunakan sistem irigasi tetes dengan emitter. Emitter merupakan bagian penting dalam sistem irigasi terkait dengan kebutuhan air untuk tanaman. Penelitian ini bertujuan untuk menganalisis debit emitter dan menilai kinerja irigasi. Analisis pada debit emitter menggunakan variabel bukaan keran dan waktu. Sedangkan, parameter untuk menilai kinerja irigasi terdiri dari coefficient of variation discharge rate, statistical uniformity, field emission uniformity, emission uniformity, absolute emission uniformity, dan variation of emitter flow. Hasil penelitian menunjukkan bahwa debit maksimum didapat pada bukaan keran 900 dengan waktu 1 menit dan debit minimum diperoleh dari bukaan keran 300 dengan waktu 1 menit. Selain itu, untuk menilai kinerja irigasi diperoleh bukaan keran 300 tidak memenuhi semua parameter dan bukaan keran 900 memenuhi semua parameter. Oleh karena itu, dapat disimpulkan bahwa bukaan keran 900 dapat diterapkan pada bentuk vertical garden yang digunakan pada penelitian karena memiliki debit emitter maksimum dan kinerja irigasi yang baik. Abstract: Analysis of Emitter Discharge in Vertical Garden Irrigation Systems A vertical garden is one solution to reduce the impact of global warming. Many essential factors need to be considered when planning a vertical garden, including the irrigation system. This study uses a drip irrigation system with an emitter. The emitter is a vital part of the irrigation system related to plant water requirements. This study aims to analyze emitter discharge and assess irrigation performance—analysis on emitter discharge using faucet opening and time variables. Meanwhile, the parameters to assess irrigation performance consist of coefficient of variation discharge rate, statistical uniformity, field emission uniformity, emission uniformity, absolute emission uniformity, and variation of emitter flow. Results showed that obtained the maximum discharge at faucet openings of 900 with a time of 1 minute, and the minimum release from faucet openings of 300 with a time of 1 minute. In addition, to assess irrigation performance, the 300 faucet opening did not meet all the parameters, and the 900 faucet opening met all the parameters. Therefore, we can conclude that applying 900 faucet openings to the vertical garden form is used in this study. Because it has a maximum emitter discharge and good irrigation performance.

INDIKATOR KONSERVASI AIR PADA SISTEM PENILAIAN GREEN BUILDING Indriyati, Citra; Maulina, Febriyanti; Kurniadin, Muhammad Heri
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 10 No. 2 (2022): RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi
Publisher : Universitas Bina Taruna Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37971/radial.v10i2.310

Abstrak: Indikator Konservasi Air Pada Sistem Penilaian Green Building. Pemanasan global adalah peristiwa peningkatan suhu bumi yang berkelanjutan, yang mempengaruhi ekosistem dan mengganggu keseimbangan ekologis planet ini. Bangunan menyumbang hampir 40% dari semua emisi gas rumah kaca. Salah satu langkah untuk mengurangi dampak tersebut adalah menerapkan konsep green building. Green building mencakup beberapa aspek yang berkaitan dengan air, energi, kualitas lingkungan dalam ruangan, lokasi, dan pemilihan material. Pengaruh aspek air pada green building sangat berpengaruh karena penggunaan air bersih relatif tinggi, dengan jumlah penduduk Indonesia yang terus meningkat setiap tahunnya. Penggunaan air bersih di masyarakat menjadikan air bersih menjadi air limbah yang tidak dapat digunakan, sehingga ketersediaan air bersih semakin berkurang. Green building telah dikembangkan di beberapa negara. Namun memiliki keterbatasan dalam menentukan tingkat kepentingan masing-masing indikator dalam sistem bangunan hijau. Pengumpulan data menggunakan kuesioner survei melalui Google forms. Untuk menentukan tingkat signifikansi menggunakan metode skala Likert. Hasil dari penelitian ini pemasangan meteran air 76,42%; ukuran perhitungan penggunaan air 84,10%; pengurangan penggunaan air 83,57%, kriteria fitur air 77,5%; mendaur ulang air 78,75%; sumber air alternatif 78,57%; pengumpulan air hujan 73,75% dan efisiensi penggunaan air lanskap 78,75%. Kata kunci: Green Building; Konservasi Air; Greenship Abstract: Indicators of Water Conservation in the Green Building Assessment System.Global warming is an ongoing event of increasing temperature on the earth, which affects ecosystems and disrupts the planet's ecological balance. Buildings contribute almost 40% of all greenhouse gas emissions. One step to reduce that impact is implementing the concept of green buildings. Green buildings cover several aspects related to water, energy, indoor environmental quality, location, and material selection. The influence of the water aspect in green buildings is very influential because the use of clean water is relatively high, with the Indonesian population increasing yearly. The use of clean water in the community turns clean water into wastewater that cannot be used, so the availability of clean water decreases. Green buildings have been developed in several countries. However, it has limitations in determining the level of importance of each indicator in the green building system. Data collection is using a survey questionnaire via Google forms. They determine the level of significance using the Likert scale method. The results of this study are installing a water meter 76.42%; the measures for calculating water use 84.10%; reducing water use 83.57%, the criteria for water features 77.5%; recycling water 78.75%; alternative water sources 78.57%; rainwater collection 73.75% and landscape water use efficiency 78.75%. Keywords: Green Building; Water Conservation; Greenship

RETRACTED: Water Tower Conservation and Sriwijaya University Law Efficiency Based on Indonesian Green Building Certification Indriyati, Citra; Izzah, Saniatul
Journal of Applied Science, Engineering, Technology, and Education Vol. 4 No. 2 (2022)
Publisher : PT Mattawang Mediatama Solution

This article has been retracted: please see ASCI Policy on Article Withdrawal (https://ascijournal.eu/index.php/asci/plagiarism). This paper is retracted at the request of the Authors.

Consistent Distribution of Irrigation Water on Vertical Gardens (With Water As Content Sample) Daud, Arifin; Indriyati, Citra; Sari, Julia Indah
Journal of Applied Science, Engineering, Technology, and Education Vol. 4 No. 2 (2022)
Publisher : PT Mattawang Mediatama Solution

As the population increases and infrastructure development continues to increase, the need for green open space is decreasing. A vertical garden is an efficient solution with a vertically modern garden concept that the functions of green open spaces can be fulfilled. The irrigation system in a vertical garden gives a major role because plants can be grown well if they have a great irrigation system. Drip irrigation is one type of irrigation system that is widely applied and the best method that has been used in the world because it is considered more efficient with a small discharge, can reduce runoff, and can reduce water loss due to evaporation. This study aims to analyze the uniform of water distribution in the drip irrigation system and the average variation of water distribution in the row and column direction using a statistical test with Kruskal-Wallis. Based on the statistical analysis, it is obtained the coefficient of variation (Cv) of 0.27, the uniformity statistic (Us) of 73.2%, and the coefficient of uniformity (Uc) of 71.7% which means that the three parameters are categorized as good and acceptable while for statistical tests Kruskal-Wallis has a difference in the average variation of water distribution for the row and column groups.

Understanding Workplace Spirituality Through a Bibliometric Analysis Setiawan, Audita; Limakrisna, Nandan; Warsindah, lucy; Indriyati, Citra
Asean International Journal of Business Vol. 3 No. 2 (2024)
Publisher : Asosiasi Dosen Peneliti Ilmu Ekonomi dan Bisnis Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54099/aijb.v3i2.937

Purpose – The goal of the current study is to investigate the bibliometric analysis of research articles on workplace spirituality that have been included in the Web of Science index. Methodology/approach – The VOS viewer software tool and Biblioshiny, which is used to produce maps, were used in conjunction with Excel sheets to analyze the data in terms of frequency and percentage. A total of 367 research papers that were published between 2020 and 2022 were chosen for this study. Findings – The analysis of the findings revealed instrumental knowledge, including top contributing countries in publication, affiliation, top contributing authors, also author keyword co-occurrence and authors keyword overlay. It is observed from the analysis that a high volume of the research was initiated from India followed by China and Indonesia. The trend show growth in year 2021. Novelty/value – These results hope will provide future researchers more options to take into account as a starting point before beginning a study on workplace spirituality. Keywords Workplace Spirituality, Bibliometric,Web of Science

Desain dan Perencanaan Teknis Kolam Retensi Arafuru Kota Palembang Alia, Febrinasti; Indriyati, Citra; Aditya, Bimo Brata
Teras Jurnal : Jurnal Teknik Sipil Vol. 13 No. 2 (2023): Volume 13 Nomor 2, September 2023
Publisher : UNIVERSITAS MALIKUSSALEH

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29103/tj.v13i2.876

Abstrak Pembangunan kolam retensi Arafuru belum mampu mengurangi frekuensi terjadinya banjir secara optimal karena Jalan Arafuru masih termasuk dalam lokasi titik banjir yang terdapat pada DAS Buah dengan ketinggian banjir antara 50-100 cm dengan durasi 24 jam. Kolam tambahan yang akan dibangun direncanakan seluas 5950 m2 untuk menampung kelebihan kapasitas kolam retensi eksisting. Optimalisasi kapasitas tampung kolam retensi Arafuru dapat dilakukan dengan mengkoneksikan outlet kolam retensi eksisting dengan inlet kolam retensi baru yang memiliki luasan 5950 m2 dengan kedalaman minimal 3 m untuk memenuhi daerah layanan/catchment area dengan luasan ±96,17 Ha. Pendugaan debit puncak limpasan permukaan dilakukan dengan metode SCS-CN dan didapatkan tinggi elevasi muka air maksimum inflow sebesar 11,4 m3/s terjadi pada menit ke 60, sedangkan elevasi puncak yaitu 2,7 m. Simulasi reduksi debit banjir dilakukan dengan software HEC-HMS, didapatkan bahwa penambahan kolam retensi dapat mengurangi debit inflow puncak dari 11,4 m3/s menjadi 7,1 m3/s atau sebesar 37,72%. Kata Kunci: Kolam retensi, analisa hidrologi, analisa spasial, pengendalian banjir Abstract The construction of Arafuru retention basin has not been able to optimally reduce the frequency of flooding since Jalan Arafuru district is still included as one of the flood points within Buah Watershed with flood depths between 50-100 cm and duration of 24 hours. The additional basin is designed to be 5950 m2 in accordance with the area of land that has been acquired to accommodate the over capacity of the existing retention basin. The optimization of Arafuru retention basins capacity can be done by connecting outlet from existing basin to the inlet of the new basin. Retention basin of 5950 m2 with a minimum depth of 3 meters is expected to accommodate runoff from ± 96,17 ha catchment area. The estimation of the peak runoff discharge was carried out using the SCS-CN method and the maximum inflow water level elevation was 11,4 m3 / s occurring in the 60th minute, while the peak elevation was 2,7 m. The simulation of flood discharge reduction using HEC-HMS resulted that the addition of a retention basin could reduce the peak inflow from 11,4 m3 / s to 7,1 m3 / s or as much as 37,72%. Keywords: retention basin, hydrological analyses, spatial analyses, flood control

ANALISIS DEBIT EMITTER PADA SISTEM IRIGASI VERTICAL GARDEN Daud, Arifin; Indriyati, Citra; Selvia, Ega Hilwa
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 10 No. 1 (2022): RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi
Publisher : Universitas Bina Taruna Gorontalo

Abstrak: Analisis Debit Emitter Pada Sistem Irigasi Vertical Garden. Vertical garden merupakan salah satu solusi untuk mengurangi dampak pemanasan global. Banyak faktor penting yang perlu diperhatikan dalam perencanaan vertical garden, salah satunya adalah sistem irigasi. Penelitian ini menggunakan sistem irigasi tetes dengan emitter. Emitter merupakan bagian penting dalam sistem irigasi terkait dengan kebutuhan air untuk tanaman. Penelitian ini bertujuan untuk menganalisis debit emitter dan menilai kinerja irigasi. Analisis pada debit emitter menggunakan variabel bukaan keran dan waktu. Sedangkan, parameter untuk menilai kinerja irigasi terdiri dari coefficient of variation discharge rate, statistical uniformity, field emission uniformity, emission uniformity, absolute emission uniformity, dan variation of emitter flow. Hasil penelitian menunjukkan bahwa debit maksimum didapat pada bukaan keran 900 dengan waktu 1 menit dan debit minimum diperoleh dari bukaan keran 300 dengan waktu 1 menit. Selain itu, untuk menilai kinerja irigasi diperoleh bukaan keran 300 tidak memenuhi semua parameter dan bukaan keran 900 memenuhi semua parameter. Oleh karena itu, dapat disimpulkan bahwa bukaan keran 900 dapat diterapkan pada bentuk vertical garden yang digunakan pada penelitian karena memiliki debit emitter maksimum dan kinerja irigasi yang baik. Abstract: Analysis of Emitter Discharge in Vertical Garden Irrigation Systems A vertical garden is one solution to reduce the impact of global warming. Many essential factors need to be considered when planning a vertical garden, including the irrigation system. This study uses a drip irrigation system with an emitter. The emitter is a vital part of the irrigation system related to plant water requirements. This study aims to analyze emitter discharge and assess irrigation performance—analysis on emitter discharge using faucet opening and time variables. Meanwhile, the parameters to assess irrigation performance consist of coefficient of variation discharge rate, statistical uniformity, field emission uniformity, emission uniformity, absolute emission uniformity, and variation of emitter flow. Results showed that obtained the maximum discharge at faucet openings of 900 with a time of 1 minute, and the minimum release from faucet openings of 300 with a time of 1 minute. In addition, to assess irrigation performance, the 300 faucet opening did not meet all the parameters, and the 900 faucet opening met all the parameters. Therefore, we can conclude that applying 900 faucet openings to the vertical garden form is used in this study. Because it has a maximum emitter discharge and good irrigation performance.

INDIKATOR KONSERVASI AIR PADA SISTEM PENILAIAN GREEN BUILDING Indriyati, Citra; Maulina, Febriyanti; Kurniadin, Muhammad Heri
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 10 No. 2 (2022): RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi
Publisher : Universitas Bina Taruna Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37971/radial.v10i2.310

Abstrak: Indikator Konservasi Air Pada Sistem Penilaian Green Building. Pemanasan global adalah peristiwa peningkatan suhu bumi yang berkelanjutan, yang mempengaruhi ekosistem dan mengganggu keseimbangan ekologis planet ini. Bangunan menyumbang hampir 40% dari semua emisi gas rumah kaca. Salah satu langkah untuk mengurangi dampak tersebut adalah menerapkan konsep green building. Green building mencakup beberapa aspek yang berkaitan dengan air, energi, kualitas lingkungan dalam ruangan, lokasi, dan pemilihan material. Pengaruh aspek air pada green building sangat berpengaruh karena penggunaan air bersih relatif tinggi, dengan jumlah penduduk Indonesia yang terus meningkat setiap tahunnya. Penggunaan air bersih di masyarakat menjadikan air bersih menjadi air limbah yang tidak dapat digunakan, sehingga ketersediaan air bersih semakin berkurang. Green building telah dikembangkan di beberapa negara. Namun memiliki keterbatasan dalam menentukan tingkat kepentingan masing-masing indikator dalam sistem bangunan hijau. Pengumpulan data menggunakan kuesioner survei melalui Google forms. Untuk menentukan tingkat signifikansi menggunakan metode skala Likert. Hasil dari penelitian ini pemasangan meteran air 76,42%; ukuran perhitungan penggunaan air 84,10%; pengurangan penggunaan air 83,57%, kriteria fitur air 77,5%; mendaur ulang air 78,75%; sumber air alternatif 78,57%; pengumpulan air hujan 73,75% dan efisiensi penggunaan air lanskap 78,75%. Kata kunci: Green Building; Konservasi Air; Greenship Abstract: Indicators of Water Conservation in the Green Building Assessment System.Global warming is an ongoing event of increasing temperature on the earth, which affects ecosystems and disrupts the planet's ecological balance. Buildings contribute almost 40% of all greenhouse gas emissions. One step to reduce that impact is implementing the concept of green buildings. Green buildings cover several aspects related to water, energy, indoor environmental quality, location, and material selection. The influence of the water aspect in green buildings is very influential because the use of clean water is relatively high, with the Indonesian population increasing yearly. The use of clean water in the community turns clean water into wastewater that cannot be used, so the availability of clean water decreases. Green buildings have been developed in several countries. However, it has limitations in determining the level of importance of each indicator in the green building system. Data collection is using a survey questionnaire via Google forms. They determine the level of significance using the Likert scale method. The results of this study are installing a water meter 76.42%; the measures for calculating water use 84.10%; reducing water use 83.57%, the criteria for water features 77.5%; recycling water 78.75%; alternative water sources 78.57%; rainwater collection 73.75% and landscape water use efficiency 78.75%. Keywords: Green Building; Water Conservation; Greenship

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