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Pembangunan Instalasi Cuci Tangan dalam Menurunkan Risiko Penyebaran Covid-19 di TPA Km. 14 Kota Palangka Raya Novrianti Novrianti; Nani Apriyani; Achmad Imam Santoso; Dhymas Sulistyono Putro
PengabdianMu: Jurnal Ilmiah Pengabdian kepada Masyarakat Vol 6 No 1 (2020): PengabdianMu: Jurnal Ilmiah Pengabdian kepada Masyarakat
Publisher : Institute for Research and Community Services Universitas Muhammadiyah Palangkaraya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33084/pengabdianmu.v6i1.1860

Scavengers have a risk of contracting Covid-19, which comes from the garbage when it is sorted. Based on this, it is necessary to make efforts to build a handwashing installation in the Km. 14 Landfill Palangka Raya City environment to prevent Covid-19, for the convenience of scavengers at work without the need for worries. The handwashing installation placement is based on the points that scavengers frequently pass so that it will be easier to access. This easy access will increase handwashing installations, which will potentially reduce the risk of Covid-19 spreads in the Km. 14 Landfill Palangka Raya City. The 250 L reservoir is placed on a wooden support. The placement is intended to facilitate the installation of water taps and when washing hands. The installation of water faucets is carried out in the 250 L reservoir provided by the 250 L reservoir producer. The sink is placed just below the water faucet outside, making it easier to wash hands and regulate water flow. The water flow from the collected hand washing will then flow gravitationally to the water filter that has been attached to the hose for further filtering so that when it flows into the country, the results of handwashing will not reduce the quality of the soil or groundwater.

PELATIHAN PEMBUATAN FILTER LIMBAH CUCI TANGAN DALAM MENJAGA KUALITAS AIR PERMUKAAN Achmad Iman Santoso; Dhymas Sulistyono Putro
Martabe : Jurnal Pengabdian Kepada Masyarakat Vol 5, No 2 (2022): Martabe : Jurnal Pengabdian Kepada Masyarakat
Publisher : Universitas Muhammadiyah Tapanuli Selatan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31604/jpm.v5i2.525-529

The application of the Health Protocol (Prokes) creates environmental problems, namely that hand soap has the potential to reduce surface water quality. This can be seen in the presence of detergent content in handwashing soap which will potentially reduce water quality. Based on government regulations, detergents are categorized as pollutants of surface water quality and contribute to reducing surface water quality. Efforts that can be made to maintain the quality of surface water from handwashing wastewater are the installation of filters on the handwashing equipment waste channels. This activity is aimed at students of the Environmental Engineering Study Program, Faculty of Engineering and Informatics, University of Muhammadiyah Palangka Raya in particular, and students in general. Tools and materials used in practice, namely in the form of tools and materials used in the manufacture of filters. The tools and materials are PVC pipe glue, 1.5-inch x 1-inch pipe joints, activated carbon tube, 1.5-inch pipe, and 1-inch pipe. This activity is divided into 2 forms, namely filter theory and practice of making hand washing waste filters. Filter theory activities are in the form of presentations related to the definition and function of filters, the role of filters in maintaining surface water quality, and discussions. The delivery of this theory aims to increase students' theoretical understanding of filters and the development of filter technology used based on their designation.

Strategi Perbaikan Implementasi Manajemen Keselamatan dan Kesehatan Kerja (K3) TPAS Wisata Edukasi Talangagung Kabupaten Malang Dhymas Sulistyono Putro
Jurnal Serambi Engineering Vol 6, No 3 (2021): Juli 2021
Publisher : Fakultas Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32672/jse.v6i3.3050

The operation of the Talangagung Edu-Tourism Landfill applies a sanitary landfill system, which requires a workforce to operate optimally. These workers may be exposed to work accidents and occupational diseases when the Landfill is operating, which come from various sources of OHS hazards. Efforts to reduce the risk of work accidents and occupational diseases consist of managing OHS in the working environment of the Talangagung Edu-Tourism Landfill. The goal of this study is to evaluate the application and provide recommendations to improving the application of OHS management at the Edu-Tourism Landfill in Talangagung. Thus, the Talangagung Edu-Tourism Landfill can maximize the volume of waste and educational tourism facilities. This study involved 16 respondents who were divided into workers and decision-makers by selective sampling in the operation of the Talangagung Edu-Tourism Landfill with data collection by observation, interviews, and questionnaires. The results of this study show that the Talangagung Edu-Tourism Landfill has implemented OHS management but the need to formulate new OHS management, to achieve maximum results. The priority strategy in efforts to improve OHS management is to "enhance awareness of OHS management" where there is a plan to implement the strategy to facilitate implementation of the strategy in the work environment.

Efektivitas Cangkang Hama Bekicot (Achatina Fulica) Sebagai Adsorben Untuk Meningkatkan Kualitas Air Sungai Kahayan Achmad Imam Santoso; Dhymas Sulistyono Putro
Jurnal Serambi Engineering Vol 5, No 4 (2020)
Publisher : Fakultas Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32672/jse.v5i4.2336

The water quality of the Kahayan River is still below the criteria for clean water quality standards. One of the treatments to improve water quality is snail shells as adsorbents of heavy metals Fe and Zn are categorized as pests on fruit plants. The object of this research is the snail shell activated charcoal is used to improve the quality of river water on heavy metals Fe and Zn. The mass variation of snail shell activated charcoal weighing 0 grams, 5 grams, 10 grams, and 15 grams. The research process is divided into the Preparation Stage and Implementation Stage, where the implementation stage consists of making snail shell charcoal, making HCl solution, activating snail shell charcoal, and absorbing snail shell activated charcoal. Snail shell activated charcoal plays an active role in decreasing Fe and Zn concentrations. At 5 mg of snail shell activated charcoal was able to reduce 53% Fe concentration and 69% Zn concentration. Snail shell activated charcoal with a mass of 10 mg and 15 mg was able to reduce Fe concentration by 82% and 84%. Testing the Zn concentration in the mass of 10 mg and 15 mg was not read optically, due to the limited accuracy of laboratory equipment.

Dampak penerapan protokol kesehatan Coronavirus disease (COVID-19) mencuci tangan terhadap kualitas air permukaan Kota Palangkaraya pada era new normal Dhymas Sulistyono Putro; Achmad Imam Santoso
Dinamika Lingkungan Indonesia Vol 9, No 1 (2022)
Publisher : Universitas Riau

Palangka Raya City is one of the cities affected by COVID-19, where on November 11, 2021, and 13104 people were confirmed positive for COVID-19. The Health Protocol continues to be carried out in this New Normal era. The Health Protocol by washing hands with soap is an environmental issue that needs attention, namely the use of hand soap which reduces surface air quality. Hand soap contains chemicals that can increase the concentration of Chemical Oxygen Demand (COD). There is a need for laboratory testing of the COD parameters of surface water around handwashing facilities in public facilities in the era of new habits. The research was divided into laboratory tests on surface water parameters, namely pH, temperature, and COD as well as field surveys on the use of handwashing facility. The results of laboratory tests show that the quality of surface water on the COD parameter is below the quality standard. The use of handwashing facilities is not justified, because its use is only 19%. Along with the low use of handwashing facilities, hand washing facilities do not have an impact on decreasing surface water quality on the COD parameter, it can be an action to maintain surface water quality.

Perancangan Sistem Pengolahan Air Gambut untuk Meningkatkan Ketersediaan Air Bersih Dhymas Sulistyono Putro; Achmad Imam Santoso; Sri Muliani Agustina; Alicia Wafiq Nur Azizah
Jurnal Serambi Engineering Vol 8, No 1 (2023): Januari 2023
Publisher : Fakultas Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32672/jse.v8i1.5572

AbstractOne effort that can be done to increase the quantity of clean water is a water treatment system. So that the resulting water quality results can reach PP No. 22 Tahun 2021 quality standards, the resulting water quality results must have an appropriate treatment system to improve the quality of peat water and increase clean water availability. Manufacturing of tools and trials at the Laboratorium Teknik Lingkungan Universitas Muhammadiyah Palangkaraya and collecting peat water on the Palangkaraya Cross-City road. The type of sample used in the implementation of this research is a grab sample, namely a sample taken directly from the water to be monitored. Peat water samples were taken as much as 10 liters. The water treatment system consists of 3 tanks which have their respective functions. Where the first tub is the coagulation tub, the second is the flocculation tub and the third is the filtering tub. The time needed to process peat water into 10 liters of clean water takes about ± 15 minutes. Clean water treatment of 10 liters for 15 minutes can be used by 2-3 people in one treatment. The quantity of water produced by this water treatment device is physically usable, as seen from the efficiency of the time it takes to process 15 minutes in 10 liters so that it can be used for hand washing activities.Keywords: Clean water, peat water, treatment system, time and volume efficiency

Perancangan Sistem Pengolahan Air Gambut untuk Meningkatkan Ketersediaan Air Bersih Dhymas Sulistyono Putro; Achmad Imam Santoso; Sri Muliani Agustina; Alicia Wafiq Nur Azizah
Jurnal Serambi Engineering Vol 8, No 1 (2023): Januari 2023
Publisher : Fakultas Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32672/jse.v8i1.5572

AbstractOne effort that can be done to increase the quantity of clean water is a water treatment system. So that the resulting water quality results can reach PP No. 22 Tahun 2021 quality standards, the resulting water quality results must have an appropriate treatment system to improve the quality of peat water and increase clean water availability. Manufacturing of tools and trials at the Laboratorium Teknik Lingkungan Universitas Muhammadiyah Palangkaraya and collecting peat water on the Palangkaraya Cross-City road. The type of sample used in the implementation of this research is a grab sample, namely a sample taken directly from the water to be monitored. Peat water samples were taken as much as 10 liters. The water treatment system consists of 3 tanks which have their respective functions. Where the first tub is the coagulation tub, the second is the flocculation tub and the third is the filtering tub. The time needed to process peat water into 10 liters of clean water takes about ± 15 minutes. Clean water treatment of 10 liters for 15 minutes can be used by 2-3 people in one treatment. The quantity of water produced by this water treatment device is physically usable, as seen from the efficiency of the time it takes to process 15 minutes in 10 liters so that it can be used for hand washing activities.Keywords: Clean water, peat water, treatment system, time and volume efficiency

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