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All Journal INDONESIAN JOURNAL OF URBAN AND ENVIRONMENTAL TECHNOLOGY eProceedings of Engineering
Octaviani, Yeni
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Agriculture, Biological Sciences & Forestry Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Energy Engineering Environmental Science Industrial & Manufacturing Engineering

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Perancangan Sistem Authentication pada Website Monitoring Suhu Mesin Ball Tea Octaviani, Yeni; Suhendi, Asep; Fitriyanti, Nurwulan
eProceedings of Engineering Vol. 11 No. 4 (2024): Agustus 2024
Publisher : eProceedings of Engineering

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Abstract

Di Indonesia, teh menjadi salah satu minuman yang sering dikonsumsi oleh masyarakat indonesia. Pada salah satu tahap pengolahan daun teh, yaitu pengeringan akhir menggunakan mesin ball tea masih dilakukan pemantauan suhu secara manual dengan termometer analog sehingga menyebabkan ketidakefisienan dan keterlambatan untuk mendeteksi masalah. Untuk mengatasi masalah ini, kami merancang sistem yang dapat memantau suhu pada mesin ball tea menggunakan sensor RTD (Resistance Temperature Detector) PT-100. Hasil monitoring suhu akan ditampilkan pada website dalam bentuk data dan grafik. Dengan memanfaatkan firebase authentication, sistem menyediakan login yang aman pada website. Firestore digunakan untuk menyimpan data suhu secara terenkripsi, memberikan lapisan keamanan yang kuat pada informasi yang dihasilkan. Pada hasil perancangan dan pengujian yang sudah dilakukan terlihat bahwa kedua database dapat terhubung dan berfungsi sesuai dengan harapan sistem. Firebase Authentication dapat berfungsi dengan baik dan Database firestore dapat menerima dan mengirim data yang berisi identitas pengguna pada website. Kata kunci: Website, Monitoring Suhu, Firebase, Firestore, Reactjs
IMPROVED DYNAMIC BOTANICAL AIR PURIFIER WITH LIGHT EFFECT FOR REDUCING CO2 CONCENTRATION IN CHAMBER Dwi Sundari, Carolina; Fajri Hadi Syahputra, Muhammad; Millatina Rachmawati, Lulu; Jalasena, Andhika; Ananta Hasmul, Nabil; Chandra, Indra; Awaludin Salam, Rahmat; Octaviani, Yeni; Rizzi Ani, Zahwa; Fitria Suyatna, Sefani; Abd Aziz, Azrina; Arif Burhanudin, Zainal
INDONESIAN JOURNAL OF URBAN AND ENVIRONMENTAL TECHNOLOGY VOLUME 7, NUMBER 1, APRIL 2024
Publisher : Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25105/urbanenvirotech.v7i1.17442

Abstract

Aims: This study aimed to investigate the effectiveness of the DBAP in reducing CO2 levels and improving indoor air quality. It also explores the impact of adding blue light to enhance photosynthesis. Additionally, the study examines the ability of the DBAP's HEPA filter to reduce PM2.5 concentration. Methodology and results: The methodology used in this study involved testing the reduction of CO2 levels in plants using blue light as an enhancement. The researchers also developed a Dynamic Botanic Air Purifier (DBAP) that incorporated activated carbon and a fan as an active filter to improve CO2 reduction. The study measured the reduction level of CO2 in the plants with blue light enhancement, resulting in a 40% reduction. Subsequently, after adding the active filter to the plants, the CO2 reduction improved by an additional 11% compared to without the active filter. Additionally, the study found that the HEPA filter within the active filter effectively reduced the concentration of PM2.5 to 71.6%. Conclusion, significance and impact study: In conclusion, this study highlights the significance of addressing poor indoor air quality and its potential impact on occupant health and well-being. Developing the Dynamic Botanic Air Purifier (DBAP), incorporating plants, activated carbon, a fan, and blue light enhancement, offers a promising solution for improving indoor air quality and preventing Sick Building Syndrome (SBS). The findings of this study have the potential to inform the development of effective strategies and technologies aimed at creating healthier indoor environments, thus positively impacting public health and overall indoor air quality.
Co-Authors Abd Aziz, Azrina Ananta Hasmul, Nabil Arif Burhanudin, Zainal Asep Suhendi Awaludin Salam, Rahmat Dwi Sundari, Carolina Fajri Hadi Syahputra, Muhammad Fitria Suyatna, Sefani Indra Chandra Jalasena, Andhika Millatina Rachmawati, Lulu Nurwulan Fitriyanti Rizzi Ani, Zahwa