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THE EFFECT OF TAPE CONCENTRATION ON VOLTAGE AND LIGHT BULB LIFE TIME WAS PRODUCED BY LEATHER WASTE AS AN ALTERNATIVE OF ELECTRICAL ENERGY RESOURCES Manggala, Agus
KINETIKA Vol. 8 No. 3 (2017): KINETIKA 01112017
Publisher : Politeknik Negeri Sriwijaya

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Abstract

Banana peel is a waste that many found in traditional markets in Indonesia. People throw it away because they feel the banana skin is no longer have benefits. Whereas the potential electricity can be generated from this banana skin waste by fermenting banana peel with tape yeast. To prove the existence of electricity that can be produced from banana peel waste, it is necessary to do this research. The method is to ferment banana peel without using yeast tape, then do the addition of tape yeast with a certain amount, then seen the effect of adding yeast tape variation to the PH value and the resulting electrical performance (voltage and duration) of electrical energy generated. The results of the research with fermentation method between banana peel with tape yeast, the addition of tape yeast cause the lower the value of PH produced, the higher the voltage and the longer time the lamp lights up during the research.
PENGARUH LEVEL KETINGGIAN AIR TERHADAP SATURATED STEAM PADA CROSS SECTION WATER TUBE BOILER MENGGUNAKAN BAHAN BAKAR GAS DAN SOLAR Manggala, Agus; ., Fatria; Lestari, Sutini Pujiastuti; Naim, Barokallah Muhammad; Sastama, Nanda
KINETIKA Vol. 11 No. 2 (2020): KINETIKA 01072020
Publisher : Politeknik Negeri Sriwijaya

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Abstract

A boiler is a device that serves to heat water to become high pressure and high temperature steam, using heat from the combustion of fuel in the combustion chamber. The growth of the domestic boiler industry will develop with research on boiler technology. One of the parameters of the steam produced is temperature and pressure. It is necessary to have the right water level in the steam production process to get saturated steam which is in accordance with the theory, which is in the range of 150-374ËšC. The results of the research show that the optimal water level is the 4th condition (60%) because it can produce saturated steam according to the pressure target with a constant state in a continuous process using diesel and gas fuel.
PENGARUH LEVEL KETINGGIAN AIR TERHADAP EFFISIENSI THERMAL PADA CROSS SECTION WATER TUBE BOILER MENGGUNAKAN GAS DAN SOLAR PRODUKSI SATURATED STEAM PROSES KONTINYU Saputra, Ardian; Putra, Febbial Pratama; ., Tahdid; Manggala, Agus; ., Zurohaina
KINETIKA Vol. 11 No. 2 (2020): KINETIKA 01072020
Publisher : Politeknik Negeri Sriwijaya

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Abstract

Boilers are used to lower the temperature of the gas and diesel passed through the tubes, and to separate the fluid between the gas phase (water vapor) and the liquid phase (water). In the Boiler water feedback system, a controller is needed that is able to maintain the stability of the water level. The boiler used often has problems that cause less than optimal steam results. The problem that occurs is usually at the level of the water level with the fuel which causes the combustion results to be not optimal and has an impact on the steam produced to be not optimal. Therefore, this research will focus on determining the most appropriate water level with natural gas and diesel fuel so that maximum combustion results are obtained. The tube will also be installed vertically with a slope of 65ËšC with the aim of increasing heat transfer to the boiler and accelerating the evaporation of water molecules which are expected to produce more optimal steam. The parameters observed were temperature, pressure, and the temperature of the combustion flame, the aim was to determine the effect of air on fuel gas and diesel on the speed of temperature and pressure increase. The results of the research show that the optimal water level is the 5th condition (70%) because it can produce saturated steam according to the Efficiency target with a constant state in a continuous process using diesel and gas fuel.
PENGARUH VARIASI SUHU, RASIO MOL REAKTAN DAN PERSEN KATALIS TERHADAP METIL ESTER SULFONAT MENGGUNAKAN REAKTOR SULFONASI Amin, Jaksen M.; Manggala, Agus; Ningsih, Aisyah Suci; Hilmasari, Jenni; Aliza, Sintiya Nur; Al Kusari, Willy
KINETIKA Vol. 11 No. 1 (2020): KINETIKA 01032020
Publisher : Politeknik Negeri Sriwijaya

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Abstract

Surfactants are generally produced from petroleum and natural gas derivatives while petroleum reserves are depleting and cannot be renewed. This has the potential to cause an energy crisis on a global scale in the future. To solve this problem, alternative renewable raw materials are needed that can help make surfactants that are environmentally friendly, namely raw materials sourced from vegetable oil. One of the anionic surfactants that can be made from plant materials and is renewable is Methyl ester sulfonate. The purpose of this study was to determine the effect of the mole ratio, temperature and percent of the catalyst and the duration of the sulfonation reaction using NaHSO3 reactants on the resulting MES. The production process of the MES surfactant is carried out by reacting the methyl ester with the sulfonation reagent in the form of NaHSO3 and CaO catalyst in the sulfonation reactor. The results showed that MES had the best characteristics with an optimum state in the ratio of 1: 1.5 mole ratio with 1% CaO catalyst and a temperature of
PENGARUH RASIO UDARA BAHAN BAKAR LPG TERHADAP FLAME TEMPERATURE DAN EFISIENSI TERMAL CROSS SECTION WATER TUBE BOILER Apriani, Marsa; Susanti, Amalia; Has, Cresa Moneta; Tahdid; Manggala, Agus; Erlinawati; Zurohaina
KINETIKA Vol. 12 No. 3 (2021): KINETIKA 01112021
Publisher : Politeknik Negeri Sriwijaya

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Abstract

Boiler is one of energy conversion machines. The boiler function is converting water into steam by utilizing the heat from the chemical reaction between fuel and oxygen in the air which is commonly known as the combustion reaction. The research purposes are to determine the effect of the LPG fuel air ratio on the flame temperature and thermal efficiency of cross section water tube boiler, and to determine the optimum fuel air ratio which produces the highest flame temperature and thermal efficiency. The air fuel ratio that use in this research are 29.16; 29.44; 29.71; 29.99; and 30,26. Based on the research, it is known that the fuel air ratio affects both of flame temperature and thermal efficiency of the cross section water tube boiler. On the range of air fuel ration 29.16 to 30.26, it is known that the greater the fuel air ratio, the higher the flame temperature and thermal efficiency The optimum air fuel ratio in this research is 29.99 which produces 680oC flame temperature and 58.85% on steady state saturated steam production, 7010C flame temperature and 59.71% thermal efficiency on non steady state saturated steam production, and 7040C flame temperature and 59.32% on superheated steam production.
RANCANG BANGUN ALAT PENCETAK BIOBRIKET CAMPURAN AMPAS TEH TEMPURUNG KELAPA DITINJAU DARI WAKTU KARBONISASI TERHADAP NILAI KALOR DAN KADAR AIR Pratiwi S, Anggun; Situmeang, Ricky Samuel; Lestari, Sutini Pujiastuti; Effendy. A., Sahrul; Manggala, Agus
Jurnal Distilasi Vol 7, No 1 (2022): Jurnal Distilasi
Publisher : Universitas Muhammadiyah Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32502/jd.v7i1.4466

Abstract

Terbatasnya sumber energi fosil menyebabkan perlunya pengembangan energi alternatif yang murah dan bersifat kontinyu serta dapat diperbaharui. Salah satu bahan baku yang dapat dijadikan sumber energi alternatif yaitu ampas teh dan tempurung kelapa. Pada penelitian ini dilakukan rancang bangun alat pencetak biobriket dengan sistem pneumatik yang menggunakan udara bertekanan sebesar 7 bar dari kompresor dengan 2 lubang cetakan yang berukuran diameter 32 mm dan tinggi 16 mm, menghasilkan gaya diberikan pada piston pneumatik untuk mencetak biobriket sebesar 562,688 N. Gaya dorong silinder atau gaya yang diberikan untuk mendorong silinder sehingga silinder bergerak maju sebesar 48,7714 kgf sedangkan gaya tarikan silinder sehingga silinder bergerak mundur sebesar 5,9059 kgf dengan kecepatan pergerakan maju mundur silinder yaitu 0,0561 m/s. Diameter silinder pneumatik yang di 32 mm dengan double acting cylinder karena diperlukan gerakan maju mundur. Untuk menggerakaan silinder pneumatik tersebut dibutuhkan udara sebesar 3,5596 liter/menit dengan energi atau daya kompresor yang dibutuhkan sebesar 71,9 watt. Pembuatan biobriket campuran ampas teh tempurung kelapa menjadi biobriket dilakukan melalui proses karbonisasi dengan variabel tetap temperatur karbonisasi 400°C dan variabel tidak tetap yaitu waktu karbonisasi 40, 50, 60, 70 dan 80 menit. Dari hasil penelitian, nilai kalor tertinggi dan telah memenuhi standar SNI 01-6235-2000 pada waktu karbonisasi 80 menit sebesar 5673,2129 cal/gr sedangkan kadar air yang telah memenuhi standar SNI 01-6235-2000 sebesar 6,87% dengan waktu karbonisasi yang sama.
Analisis Efisiensi Termal Evaporator Vakum pada Proses Pemekatan Nira Tebu Hafidza, Annisa Ulmi; Meiliana, Mutia; Nugroho, M Febrian; Manggala, Agus; Daniar, Rima; Zurohaina, Zurohaina
Jurnal Pendidikan Tambusai Vol. 7 No. 3 (2023): Desember 2023
Publisher : LPPM Universitas Pahlawan Tuanku Tambusai, Riau, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jptam.v7i3.12171

Abstract

Evaporator merupakan suatu alat yang berfungsi untuk menghasilkan larutan yang terkonsentrasi. Pada dunia industri gula tebu alat ini berfungsi untuk menghasilkan nira yang terkonsentrasi. Parameter yang digunakan untuk menunjukkan konsentrasi nira adalah nilai brix. Konsumsi energi terbesar di pabrik gula digunakan untuk pemanasan nira. Pada penelitian ini akan diuji pengaruh tekanan vakum dan waktu proses evaporasi terhadap peningkatan nira brix menggunakan vakum evaporator. Penelitian bertujuan untuk menganalisis perpindahan massa termal, distribusi energi dan efisiensi termal pada alat evaporator vakum dengan variasi tekanan dan waktu. Hasil penelitian menunjukkan bahwa kondisi operasi berpengaruh terhadap efisiensi termal pada evaporator vakum. Kondisi operasi optimum pada alat ini terdapat pada tekanan -550 mmHg dan -570 mmHg pada menit ke 240 menghasilkan efisiensi sebesar 43,05% dan 43,1%.
Analisis Pengaruh Variasi Kecepatan Putar dan Waktu Pengeringan Jagung Terhadap Effisiensi Thermal Alat Rotary Dryer Rapindo, Gepin; Izzuddin, Muhammad; Manggala, Agus; Yunanto, Isnandar; Daniar, Rima
Innovative: Journal Of Social Science Research Vol. 5 No. 2 (2025): Innovative: Journal Of Social Science Research
Publisher : Universitas Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/innovative.v5i2.18001

Abstract

Technological developments are increasingly showing very significant developments in order to simplify a process, one of which is drying using tools such as rotary dryers. The drying process is very important in reducing the moisture content in a material that functions to improve quality or extend shelf life. In this study, the effect of rotation speed and drying time on thermal efficiency will be tested. The results of the study show the influence of rotation speed and moisture content time. the lowest moisture content is at RPM 3 and the time of 120 minutes is 13.07% which has reached the SNI standard of 14%. Time also affects the drying rate, which can be seen at RPMs 1, 2 and 3 there is a decrease in drying rate of .614 kg/h m² to 0.547 kg/h m² at 120 minutes. The efficiency of the thermal rotary dryer is also affected by the rotation speed seen at RPM 3 and 20 minutes time of 69.39% while at RPM 1 and 20 minutes time of 60.92%.
Sosialisasi Pengolahan Air Sumur Bor Menjadi Bersih dengan Tray Aerator Ventury Yerizam, Muhammad; Junaidi, Robert; Manggala, Agus; Riansyah, Epan; Tamara, Ade; Khairunnisa, Annisa Septia
Yumary: Jurnal Pengabdian kepada Masyarakat Vol. 5 No. 4 (2025): Juni
Publisher : Penerbit Goodwood

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35912/yumary.v5i4.3651

Abstract

Purpose: This study aimed to socialize the method of processing drilled well water into clean water that is suitable for use as boiler feed water, with a focus on the use of Tray Aerator Venturi tools to improve water quality. Methodology: The method applied was socialization and application of the Tray Aerator Venturi tool using 3D visualization, which was carried out directly at PT Utama Karya Techindo. The activity begins with a site survey, followed by discussions with company management to identify problems. Results: The results of this activity showed an increase in the understanding of PT Utama Karya Techindo staff regarding the water treatment process. The use of the Tray Aerator Venturi is effective in reducing the levels of iron (Fe) and manganese (Mn) in well water, which were previously the main causes of corrosion in boiler pipes. Conclusions: Using the Tray Aerator Venturi is effective and economical for processing well water into quality boiler feed water. Apart from improving water quality, this technology also reduces the risk of corrosion in pipes. This activity succeeded in providing understanding and skills to partners to operate and maintain the water treatment systems independently. Limitations: The lack of money available to manufacture Venture Tray Aerator tools to be implemented directly in companies to be more effective in outreach. Contribution: The outreach can be used for PT Utama Karya Techindo's needs in managing boiler feed water in Tanjung Enim. This service can be used for household needs in managing clean water because the equipment is easy to make and affordable.
Pengembangan Perangkat Lunak Simulasi PLTU Menggunakan Excel VBA untuk Aplikasi Rekayasa Manggala, Agus; Yerizam, Yerizam; Effendy, Sahrul
IRA Jurnal Teknik Mesin dan Aplikasinya (IRAJTMA) Vol 4 No 2 (2025): Agustus
Publisher : CV. IRA PUBLISHING

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56862/irajtma.v4i2.232

Abstract

Coal-fired steam power plants (PLTU) remain essential in electricity generation, especially in countries with abundant coal resources. Thermodynamic modeling based on the Rankine cycle is crucial for both educational and design purposes, but commercial software is often costly and less accessible. This study develops a low-cost simulation tool using Microsoft Excel and VBA to model the Rankine cycle in PLTU systems. Users can input operating parameters, calculate thermodynamic properties using IAPWS-IF97 formulations, and evaluate system efficiency through energy balance analysis. The user-friendly interface features real-time efficiency graphs and energy flow diagrams. Validation results show deviations of less than 5% for key parameters, making this tool effective for engineering education, preliminary feasibility studies, and local research in thermal power generation.