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Risse Entikaria Rachmanita
Program Studi Teknik Energi Terbarukan, Jurusan Teknik, Politeknik Negeri Jember
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Journal : Journal of Engineering Science and Technology

 1 
Rancang Alat Pencacah Rumput Pakan Ternak Tenaga Surya Berbasis Mikrokontroller Dengan Sinar UV Sebagai Penghigienis Rumput Euaggelion Eko Firman Setiawan Yohanes; Enno Agdelliano Diniardi; Muhammad Syah Radian; Agung Budi Prasetyo; Dinda Azzahra Permata Hati; Risse Entikaria Rachmanita
Journal of Engineering Science and Technology Vol. 1 No. 2 (2023): May
Publisher : Indonesian Journal Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47134/jesty.v1i2.6

Abstract

The innovation of a lawn mower using a microcontroller based solar energy system combined with UV LED light as a microbe minimizer aims to increase the innovation of the lawn mower by using the PLTS system from the use of sunlight that is cleaner and more efficient which replaces fossil fuels from diesel and turns grass into grass. The chopper results are more hygienic for ruminant livestock. The innovation of the lawn mower in this activity is presented in the form of a ready to use machine. The method used in the realization of the concept and design as well as the design of the tool is carried out by going through the literature study stages, designing tool design concepts, designing tool making, and testing tool performance. main frame: height 200cm, width 50cm, length 60cm with a thickness of 4 mm angled iron frame, chopper cover componen 50 cm long and 15cm wide, axle iron components 1,5 inch, the diameter of the chopping knife blade is a 30cm using an AC motor drive. Total electrical energy and tool performance generated by the solar power system on the Smart Machine Grass chopper for 2 hours when the engine is running without charging, the average voltages is 14,62 Volts, current is 2,08 Ampere, and produces an average energy of 6,18 watts and obtained the performance of the tool in chopping grass of 63,4 kg for 2 hours with an average of 2,64 kg every 5 minutes.
INSECT TRAP LIGHT BERBASIS ANDROID DENGAN TEKNOLOGI SOLAR CELL SEBAGAI SOLUSI PENGENDALIAN HAMA SERANGGA PERTANIAN Setio Enwin Putra Ramadhani; Harga Sri Rahayu Ningsih; Risse Entikaria Rachmanita
Journal of Engineering Science and Technology Vol. 1 No. 2 (2023): May
Publisher : Indonesian Journal Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47134/jesty.v1i2.8

Abstract

Pada sektor pertanian, ada berbagai tantangan yang hampir tidak lepas dari petani. Salah satunya yaitu tantangan hama tanaman. Hama dapat memberikan pengaruh kurang baik terhadap hasil panen. Pengendalian hama tanaman yang kurang baik dan maksimal akan memberikan dampak yang kurang baik pula terhadap hasil pertanian. Penelitian ini bertujuan untuk membuat dan menerapkan teknologi Insect Trap Light pada pertanian sebagai solusi untuk mengatasi masalah hama tanaman dengan melakukan pengendalian hama guna meningkatkan kualitas dan kuantitas hasil produksi pertanian. Insect Trap Light efektif menurunkan populasi hama serangga yang aktif pada malam hari. Teknologi ini memanfaatkan panel surya untuk mengubah energi matahari menjadi energi listrik sehingga dapat ditempatkan pada lahan yang jauh dari rumah maupun sumber listrik PLN. Dari hasil penelitian yang dilakukan, lampu dapat menyala selama 11 jam dengan menggunakan solar cell 50 Wp dan baterai dengan kapasitas 12 V 35 Ah. Sistem monitoring menggunakan smartphone juga menunjukkan hasil tegangan dan kondisi lampu pada alat perangkap serangga, aplikasi tersebut juga dapat mengontrol lampu dengan baik. Implementasi alat dilakukan pada komoditas terong yang kemudian menghasilkan pengaruh terhadap tanaman dengan tidak adanya penambahan buah yang rusak. Hal tersebut juga menunjukkan bahwa terjadi pengurangan terhadap populasi hama serangga pertanian di lahan tersebut. Kata-kata kunci: Insect Trap Light, Pengendalian Hama, Solar Cell
PERANCANGAN ECO SMART CHARGING AREA DI POLITEKNIK NEGERI JEMBER: DESIGN OF ECO SMART CHARGING AREA AT JEMBER STATE POLYTECHNIC Achmad Daffa Danang Luthfiansyah; Herlina Oktavia; Duta Catur Pamungkas; Muhammad Rofiul Haq; Anfasa Syahrul Habibie; Risse Entikaria Rachmanita
Journal of Engineering Science and Technology Vol. 1 No. 2 (2023): May
Publisher : Indonesian Journal Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47134/jesty.v1i2.10

Abstract

Inovasi Stasiun Pengisian Kendaraan Listrik Umum (SPKLU) menggunakan sistem energi tenaga surya bertujuan agar terciptanya penggunaan energi bersih di Indonesia serta mendorong tercapainya bauran energi nasional tahun 2050. Penerapan inovasi Stasiun Pengisian Kendaraan Listrik Umum (SPKLU) diharapkan dapat menggantikan ketergantungan pada bahan bakar fosil dan diharapkan dapat meningkatkan minat masyarakat agar beralih ke kendaraan listrik yang tidak memiliki emisi bahan bakar. Inovasi Stasiun Pengisian Kendaraan Listrik Umum (SPKLU) pada kegiatan ini disajikan dalam bentuk konsep. Metode yang digunakan dalam perwujudan konsep serta desain dilakukan dengan melalui tahap studi literatur dan tahap survey. ECO SMART CHARGING AREA dapat menghasilkan potensi energi surya sebesar 34.650 WP atau 34,65 kWp. Dengan jumlah energi yang dapat dihasilkan mencapai 34,65 kWp maka charging area ini dapat melakukan pengecasan 10 unit mobil listrik merk Wuling Air EV (Standard Range) dan 41 unit motor listrik secara bersamaan. Charging area ini memiliki Panjang 11 m dan lebar 35,49 m serta memiliki luas sebesar 130,13 dibangun di Politeknik Negeri Jember.
PENGGUNAAN TEKNIK IMMERSION COOLING PADA PENDINGINAN PANEL SURYA Bayu Rudiyanto; Deva Tri Febiana; Risse Entikaria Rachmanita; Dedy Eko Rahmanto
Journal of Engineering Science and Technology Vol. 1 No. 2 (2023): May
Publisher : Indonesian Journal Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Renewable energy that is now widely loved is solar energy, which can be converted into electrical energy with the help of solar panels. Solar panels are made of semiconductor silicon which absorbs photons from the sun's energy. However, the sun does not only produce photons which can be converted into electrical energy, but there is also heat energy which can increase the temperature of the solar panels which can reduce the performance of the solar panels. Therefor researchers conducted research to reduce the temperature of solar panels by using the monocrystalline solar panel cooling method using mineral oil with the immersion cooling technique. However, from the experimental data in the field, it was found that the results were not good where solar panels without cooling were more than solar panels with cooling. The anova analysis test which was continued with the Tukey method confirmed that the voltage and current of the uncooled solar panels were superior, namely 4.48 V and 0.94 A. Solar panels with a 3cm cooling liquid variation produced a power of 3.93 W while non-liquid solar panels The cooler produces a power of 4.81 W, so research on cooling solar panels using liquid mineral oil with immersion cooling techniques has not succeeded in increasing the performance of solar panels and cannot be applied to PLTS.
Co-Authors Achmad Archam Sya’bana Achmad Daffa Danang Luthfiansyah Achmad Noval Kurniawan Raroeng Adinda Ayuning Amri Agung Budi Prasetyo Ahmad Rofi'i Ahmadi, Haerul Alex Taufiqurrohman Zain Alfan Mubarok Anfasa Syahrul Habibie Ayu Safitri Azamataufiq Budiprasojo Azamataufiq Budiprasojo Bangun Pribadi Bayu Rudiyanto Brilliantina, Aulia Budi Hariono Dafid Ari Prasetyo Dandi Arifian Dedy Eko Rahmanto Deva Tri Febiana Dinda Azzahra Permata Hati Duta Catur Pamungkas Enno Agdelliano Diniardi Euaggelion Eko Firman Setiawan Yohanes Fila Ramadhan Harga Sri Rahayu Ningsih Herlina Oktavia Jihan Rahfida Haryati Michael Joko Wibowo Moch. Yusron Mochamad Irwan Nari Mochammad Nuruddin Moh. Yusuf Syafi'i Mokhamad Fatoni Kurnianto Mokhammad Nuruddin Muhammad Rifki Afdillah Muhammad Rofiul Haq Muhammad Syah Radian Nur Faizin Setio Enwin Putra Ramadhani Siti Ainun Fiqiyah Syamsiar Kautsar Tasih Mulyono Tio Alfian Nirvanto Widha Zahroh Zakiyatul Muna Yuli Hananto Zeni Ulma