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All Journal ARSY : Jurnal Aplikasi Riset kepada Masyarakat Journal of Applied Mechanical Engineering and Renewable Energy (JAMERE) INJECTION: Indonesian Journal of Vocational Mechanical Engineering ENTRIES
Normansyah Normansyah
Politeknik Negeri Ketapang
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Uji Kekerasan Bahan Gear Sprocket Dengan Campuran Timah (Sn) Normansyah Normansyah; Muh Anhar
Journal of Applied Mechanical Engineering and Renewable Energy Vol 1 No 1: Februari 2021
Publisher : Indonesian Society of Applied Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (305.598 KB) | DOI: 10.52158/jamere.v1i1.80

Abstract

The Material Test Process of Gear Sprocket includes the process of cutting the material used as the Material Test sample which is mixed or not mixed. In the sample that is mixed, namely the base metal that has been cut with a value ratio of 10:2 Ounce of Material Gear Sprocket 10 and Tin Material 2 Ounces, fusion will be carried out for the process of blending/unifying the two types of material as sample material. Test the material with the mixing, while the Gear Sprocket material sample that was not mixed was also taken a load value of 10 Ounces, for the test sample where the mixing was not carried out. The test results data from the Gear Sprocket material sample with Tin mixing with four tests from several different surface parts obtained the value 51.5, 55, 50, 53 kgf. While the sample of the Gear Sprocket material without mixing the tin, the results obtained are the values ​​of 50, 51, 50, 50 kgf. In combining the Tin Material with the base metal Gear Sprocket with the ratio of 2 Ounce Tin Material and 10 Ounce Gear Sprocket Material, the hardness results are unstable, so the value obtained from the material being treated is obtained a value that is less likely, while the material test value of the Material Gear Sprockets that are not combined have good results from each surface even though the hardness value is slightly smaller than the result of the material being treated.
KAJIAN EKONOMI PEMBANGKIT LISTRIK TENAGA MIKRO HIDRO (PLTMH) BENUIS Normansyah Normansyah
Injection: Indonesian Journal of Vocational Mechanical Engineering Vol 2 No 1 (2022): Februari 2022
Publisher : Politeknik Negeri Ketapang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/injection.v2i1.1024

Abstract

energy as a source of electrical energy, both solar, wind, hydro and other renewable energy sources, a potential source of uranium in Indonesia.What needs attention is how to design energy policies to use each type of energy optimally, so as to avoid over-exploitation of fossil energy on the one hand, and on the other hand prevent neglect of renewable energy sources. In an effort to overcome this, the central and regional governments have made new policies that encourage the use of renewable energy sources as an alternative to supplying electricity to rural communities.The aims and objectives of the Feasibility Study Preparation Activity for the Benuis Micro-hydro Power Plant (PLTMH) Benuis Village, Selimbau District are; Availability of technical documents that describe the detailed design of the PLTMH and the Budget Plan (RAB) for the Benuis PLTMH Benuis Village. As a proposal for the construction of network facilities and infrastructure electricity..
Perancangan Turbin Pelton untuk Pembangkit Listrik Tenaga Air Normansyah Normansyah
Injection: Indonesian Journal of Vocational Mechanical Engineering Vol 2 No 2 (2022): Agustus 2022
Publisher : Politeknik Negeri Ketapang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/injection.v2i2.1026

Abstract

In developing countries the necessity and the possibilities to manufacture machines locally are inc!easing. Often be necessary equipment, machines, material and the skilled labour as well as technical staff are available, but what is missing is the information and the know-how. One category of machines used to harness walet power and which can be produced locally, are water turbines. In some countries there is an established tradition in the production, installing and running of small water mills. Often these are units with simple vertical axis wheels or are large water wheels. For example, one country with experience on vertical axis water wheels.This research summarizes the simple calculations for designing a Pelton turbine with a head of water falling of 1130 m, with a discharge of Q = 28.5 m3/s, so that based on the calculations, a power of P = 288 MW is obtained.
Tinjauan Ekonomi Potensi Pendapatan Asli Daerah Melalui Pembangunan Pembangkit Listrik Tenaga Mikrohidro (PLTMH) Normansyah Normansyah
Electrical Network Systems and Sources Vol 1 No 1 (2022)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v1i1.1114

Abstract

One of the Renewable Energy potentials that can be developed in Ketapang Regency is Micro Hydro Power Plant (PLTMH) in the form of a Waterfall, which is located in 3 (three) districts, in 5 (five) villages, with an average discharge of 0.1-0 , 2m³ / sec. And along the Pawan River Basin, there is enough potential for Micro Hydro Power Plants. From the economic point of view to help overcome the problem of electricity shortages, especially in rural areas. In an effort to help accelerate the electrification process of Ketapang Regency through rural electrification based on renewable energy sources especially water energy. As well as helping the realization of an Energy Independent Village based on Micro Hydro Power Plants (PLTMH) which is able to improve economic, social, educational and technology introduction aspects in rural areas of Ketapang Regency. This research activity consists of several stages, including: (1). Location Survey, (2). Calculation of Turbine Plan, (3) Economic Review, (4) Report Making. The results showed that, Siduk River Flow has an average available flow of 24 m³ / s and the height of water fall that can be optimized is 8 m, with the potential for electric power reaching 1.3 MW. The planned electrical power in the Siduk PLTMH is 500 kW (2 x 250 kW), with a design discharge (Qd) 2 x 4.75 m³ / s, with an effective fall height (Hn) of 7.6 m. Electricity production per year is 3,066,000 (kwh / year), with an investment of Rp. 16,000,000,000, investment period of 20 years. Pay Back Period (PBP) 3.9 Years, Rate of Return (ROR) 25.43%, Internal Rate of Return (IRR) 25.31%.
Analisis Kebutuhan Energi dan Rancangan Konservasi Energi di Politeknik Negeri Ketapang Normansyah Normansyah; Yudi Chandra
Electrical Network Systems and Sources Vol 1 No 2 (2022)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v1i2.1119

Abstract

To anticipate the occurrence of power outages at the Ketapang State Polytechnic, it is supposed to immediately implement an energy management system as an opportunity for energy conservation. This system is designed based on a portrait of the current state of electricity use and forecasts of changes in patterns of electricity use in the future. This study aims to examine or study energy management by auditing the use of electrical energy and estimating the need for electrical energy at the Ketapang State Polytechnic institution during the period the next ten years, namely from 2013 to 2022 as well as drafting an energy conservation design that needs to be implemented as an effort to save electricity use at the Ketapang State Polytechnic so that it can reduce the cost of electrical energy. The research method used was a field survey conducted at the Campus The Ketapang State Polytechnic used data on the use of electrical energy in 2013. The research was carried out through four stages consisting of: the preliminary stage, the data collection stage, the data processing stage, and the analysis and conclusion stage. The results showed that: (1) the value of Energy Consumption Intensity (IKE) of 43 kWh/m2 which is much smaller than the standard IKE value for educational (office) buildings which is 240 kWh/m2 so there is no need to carry out a detailed energy audit, (2) there is a trend of increasing demand for electrical energy until 2022 around 10 %, (3) energy conservation design models that can be applied at the Ketapang State Polytechnic consist of: (1) light retrofit (adjustment/repair) of building/room construction, (2) utilizing the use of energy-saving technologies, (3) preparing and implementing SOPs for the use of facilities, and (4) conducting education and training for electric energy managers/users at the Ketapang State Polytechnic.
Rancang Bangun Generator Magnet Permanen 16 Kutub untuk Pembangkit Listrik Tenaga Angin Normansyah Normansyah
Electrical Network Systems and Sources Vol 1 No 2 (2022)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v1i2.1120

Abstract

Electricity is one of the main needs at this time. It has become a reality in the daily life of modern society that has advances in information and technology. Energy is one of the main needs in human life. The use of fuel for conventional power plants in the long term will exhaust the diminishing sources of oil, gas and coal and can also cause environmental pollution. An environmentally friendly energy source is the use of renewable energy, one of which is wind energy. Wind energy will be used as an energy source to produce mechanical energy which is then converted into electrical energy. The use of wind energy is expected to reduce the use of PLN electricity. A generator is a machine that can convert motion energy (mechanical) into electrical energy. (electrical). In a wind power plant, the generator moves because of wind energy (potential) that enters the blades and produces kinetic energy, then the resulting kinetical energy rotates the rotor of the engine, this rotation is called mechanical energy, and then the engine converts the mechanical power into electrical energy. The design, design and manufacture of a permanent magnet generator with a power of 150 W is used for the purposes of generating electric energy from low-speed wind energy. The components used are: Magnetic field, 12 magnets with a size of 2×1 cm, 0.4 mm email wire, shaft, bearing, 12 Volt DC lamp for generator testing.
DAMPAK PENERAPAN KONSEP DESAIN MAGNETIC GEAR PADA PUTARAN GENERATOR Normansyah Normansyah
Electrical Network Systems and Sources Vol 1 No 2 (2022)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v1i2.1123

Abstract

Alternating current electric generators are widely known in the world of electricity. All electric generators that until now were known to experts in this field require an increase in activation power because an electrical load is required from the electric generator. In other words, with the increase in the electrical load on the generator, the more power will be needed by the driver, whether it is fossil fuel generation, hydropower, or something else. The generator is an important component in the power plant. Generator is a design of an electric machine that can convert kinetic energy into electrical energy. The magnetic field will rotate in accordance with the direction of rotation when the generator gets a rotation from the outside which then results in electromagnetic induction in the coil. In this process, obtain data by plunging directly into the location of the process of rolling generators or electric motors of mechanical and welding workshops. As well as getting other information about the problems contained in the field such as: determining the coil and the coil rolling process, being able to measure and knowing the strength of the coil current, being able to find out the turning process and drilling the main material of the generator. So the impact of applying magnetic gear at a revolution of 375 rpm, the condition of the rotation of the generator without load. And the impact of applying magnetic gear at a revolution of 366 rpm, the condition of the generator rotation after loading. To reduce the increase in power required by the cruster due to the increase in the electrical load on the generator so that it can result in efficiency and reduce the cost of producing electrical energy in the generator.
Rancang Bangun Generator Listrik Dengan Pole Modulator Sebagai Induktor Torsi Balik Yang Ditimbulkan Oleh Back Emf Normansyah Normansyah
Electrical Network Systems and Sources Vol 1 No 2 (2022)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v1i2.1124

Abstract

This study relates to a reverse current electric generator or commonly known as an AC generator. ( alternating current). AC generators are widely known in the electrical world. All power generators require increased activation power due to the electrical load on the generator. In other words, with the increasing load applied to the generator, the more power is needed by its drivers, whether the energy source is oil, water, wind or other.The research on this final project aims to reduce the power increases required by the drill resulting from the increase of the electrical load on the generator so that it can result in efficiency and reduce the cost of producing electrical energy on such generator.To avoid changes that cause the induction style by providing the opposing magnetic field or re-inducing the reverse electrical motion style or the Back EMF to the generator gear to be able to reduce the required initial torque so that it can reduce the power required by the driver along with the addition of load on the Generator. This can reduce the cost of generating electricity from the generator. As for the initial design of the specification of this generator, the outer power is 2,200 watts, the induction voltage is 220 volts, 1 phase, the frequency is 50 Hz, the rotation speed of the generator is 375 rpm.
Pendampingan dan Penerapan Papan Informasi berbasis Modul LED P10 di Kantor Desa Sukamaju Fachrul Rozie; Akhdiyatul Akhdiyatul; Yudi Chandra; Ivan Suwanda; Normansyah Normansyah
ARSY : Jurnal Aplikasi Riset kepada Masyarakat Vol. 5 No. 1 (2024): ARSY : Jurnal Aplikasi Riset kepada Masyarakat
Publisher : Lembaga Riset dan Inovasi Al-Matani

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55583/arsy.v5i1.834

Abstract

Papan Informasi Running Text adalah sebuah papan informasi berbasis Modul LED P10 yang difungsikan sebagai media informasi modern. Di perdesaam akses informasi bagi masyarakat desa belum sepenuhnya tersampaikan secara menyeluruh tidak meratanya masyarakat yang memiliki pengetahuan tentang media social dan sejenisnya membuat lambannya informasi tersampaikan. Dengan memperkenalkan teknologi papan informasi modern menggunakan modul LED P10 ini pemerintah desa dapat meningkatkan akses informasi publik dan memfasilitasi komunikasi dua arah antara pemerintah desa dan warganya . Metode pengabdian melibatkan sosialisasi, pelatihan, dan implementasi papan informasi berbasis Modul LED P10 di lokasi strategis di Desa Sukamaju. Proses penerapan melibatkan partisipasi aktif dari masyarakat, memberikan pengetahuan dan keterampilan untuk mengoperasikan papan informasi. Hasil pengabdian menunjukkan bahwa teknologi papan informasi LED P10 telah berhasil memberikan akses informasi yang lebih cepat dan efektif bagi masyarakat, termasuk informasi penting tentang kegiatan desa, program pemerintah, dan peristiwa khusus. Partisipasi aktif masyarakat dalam penggunaan papan informasi berbasis Modul LED P10 ini juga berdampak positif pada transparansi pemerintah desa dan memberdayakan masyarakat untuk berpartisipasi dalam pengambilan keputusan lokal.
Co-Authors akhdiyatul, akhdiyatul Fachrul Rozie Ivan Suwanda . Muh Anhar Yudi Chandra Yudi Chandra