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All Journal MEDIA MATRASAIN Journal of Architecture & Environment JURNAL KESEHATAN LINGKUNGAN: Jurnal dan Aplikasi Teknik Kesehatan Lingkungan RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi Jurnal Sains dan Teknologi Interdisciplinary Social Studies Journal Of World Science DIMENSI: Journal of Architecture and Built Environment Sabua : Jurnal Lingkungan Binaan dan Arsitektur Media Matrasain RADIAL: Jurnal Peradaban Sains, Rekayasa dan Teknologi
Sangkertadi Sangkertadi
Sam Ratulangi University
Arts Humanities Civil Engineering, Building, Construction & Architecture Computer Science & IT Economics, Econometrics & Finance Electrical & Electronics Engineering Engineering Environmental Science Health Professions Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Mathematics Mechanical Engineering Physics Public Health Social Sciences

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MENGESTIMASI KOEFISIEN BUKAAN Cd PADA JENDELA BANGUNAN TINGGI DENGAN BANTUAN SIMULASI C F D Sangkertadi, Sangkertadi; Suryono, Suryono
Dimensi: Journal of Architecture and Built Environment Vol. 29 No. 2 (2001): DECEMBER 2001
Publisher : Institute of Research and Community Outreach, Petra Christian University, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.9744/dimensi.29.2.%p

Abstract

Numerical simulation with CFD (Computational Fluid Dynamic) is actually common method for the researches on building aerodynamics. This study is focused on the observation of air movement behavior through large openings of typical high rise buildings in the tropical humid environment. Some values of Cdinlet (discharge coefficient for inlet opening) of each opening for several architectural configurations are obtained. Generally the results show that the value of Cdinlet is not depend on the height of opening but it is influenced by its architectural configuration. Abstract in Bahasa Indonesia : Simulasi numerik dengan paket program CFD (Computational Fluid Dynamic) saat ini telah menjadi hal yang umum sebagai alat bantu dalam bidang riset mengenai aerodinamika bangunan. Studi ini, yang juga menggunakan alat bantu CFD, difokuskan pada observasi mengenai perilaku pergerakan angin yang melewati bukaan-bukaan lebar pada suatu bangunan tinggi yang dikondisikan memakai sistim penghawaan alami. Melalui metoda ini didapatkan sejumlah angka Cd (discharge coefficient) dari setiap bukaan untuk beberapa konfigurasi arsitektural. Adapun angka Cd diperlukan untuk mengestimasi besarnya debit ventilatif yang melewati bukaan-bukaan. Hasilnya secara umum menunjukkan bahwa nilai Cd tidak tergantung pada posisi ketinggian bukaan tetapi lebih dipengaruhi oleh konfigurasi arsitekturalnya. Kata kunci: ventilasi alam, bangunan tinggi, pembukaan.
MEMPREDIKSI POLA PERUBAHAN TEMPERATUR DALAM RUMAH TROPIS LEMBAB DENGAN MENGGUNAKAN MODEL ANALOGI ELEKTRIK SATU DIMENSI Sangkertadi, Sangkertadi
Dimensi: Journal of Architecture and Built Environment Vol. 30 No. 1 (2002): JULY 2002
Publisher : Institute of Research and Community Outreach, Petra Christian University, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.9744/dimensi.30.1.%p

Abstract

This study concern in the application of a simplified heat transfer model for simulation of thermal behaviour of tropical buildings. The model is to be integrated to a transient simulation program TRNSYS. The objective of this study is to predict the variable of indoor air temperature due to outdoors environmental climatic. The first case is about the comparison of the model with other model from ASHRAE (i.e. Transfer Function Method). The second case is the application of the model for a thermal simulation of a 7-zones typical tropical house. The simulation results (indoor air temperature and surfaces temperature) are to be then compared to the results from field measurement. The comparison shows that there is similarity between those two approaches. Abstract in Bahasa Indonesia : Studi ini diarahkan pada validasi dan penggunaan suatu model perhitungan perpindahan panas sederhana satu dimensi untuk memprediksi perubahan suhu udara dalam ruang rumah beriklim tropis lembab. Model tersebut adalah model analogi elektrik yang dapat dipakai untuk membuat simulasi perpindahan panas pada kondisi tak-stedi.Pada penerapan di kasus pertama, hasil perhitungan dengan model sederhana tersebut dibandingkan terhadap perhitungan dengan model lainnya yaitu model TFM (Transfer Function Method) dari ASHRAE (American Society of Heating, Referigerating and Air conditioning Engineers). Pada penerapan di kasus kedua, dilakukan pembandingan terhadap hasil pengukuran pada kasus rumah tinggal 7 zona. Hasilnya menunjukkan bahwa tidak terdapat perbedaan yang signifikan antara hasil perhitungan dengan model sederhana tersebut dibandingkan terhadap hasil perhitungan dengan model TFM maupun terhadap hasil pengukuran di lapangan.
MENGEVALUASI PENGHAWAAN ALAMI SEBUAH RUMAH TROPIS DUA LANTAI DENGAN MENGGUNAKAN TEKNIK SIMULASI NUMERIK Sangkertadi, Sangkertadi; Rumagit, Fransisca
Dimensi: Journal of Architecture and Built Environment Vol. 27 No. 1 (1999): JULY 1999
Publisher : Institute of Research and Community Outreach, Petra Christian University, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.9744/dimensi.27.1.%p

Abstract

Large openings in tropical style houses are needed to get enough airflow through the rooms. As it is mentioned In the Indonesian standard building (SK SNI T-14-1993) that there is a minimum ventilation rate for each room. This study concern in evaluation of natural ventilation performance of a two-story tropical house in Manado. Recently, numerical simulation is common method and practical tool in the researches in engineering. Airflow pattern in buildings can easily evaluated using numerical simulation method. Wind direction and speed as variable of inputs can easily varied and introduced in the code of simulation. In this study a computer program Ventila.1.0 (written by Sangkertadi, 1998) is used as simulator. This code is based on the basic of flow equations (Bernoulli, Pressure difference, Stack-effect, Mass balance). The results show that the quantity of airflow from cross ventilation is greater than the minimum value mentioned in the standard. Abstract in Bahasa Indonesia : Tipe rumah tropis pada umunya adalah memiliki bukaan cukup untuk menghasilkan debit ventilasi untuk mencapai tingkat kenyamanan dan kesehatan ruang. Namun begitu yang dijadikan ukuran mengenai persyaratan kuantitas debit ventilasi di Indonesia telah ditetapkan melalui SK SNI-T-14-93. Studi ini adalah dalam rangka mengevaluasi sistim penghawaan alami pada sebuah tipe rumah tropis berlantai dua (merupakan modifikasi dari rumah tradisional Minahasa) yang berada di daerah perkotaan (di pusat kota di Manado). Rumah tersebut dibuat sedemikian sehingga terdapat sebuah ciri ventilasi cerobong disalah satu bagian ruangannya. Metoda yang dipakai dalam studi ini adalah simulasi numerik dengan program Ventila.1.0 (program dibuat oleh Sangkertadi, 1989, dalam bahasa Fortran77) Formulasi yang ada didalam program ini didasarkan pada persamaan-persamaan umum tentang aliran (Bernoulli, Perbedaan Tekanan, Stack Effect, dll). Hasil dari simulasi menunjukkan bahwa ternyata sistim penghawaan silang berlangsung dengan baik dan nampak bahwa sistim ventilasi cerobong juga menunjukkan fungsinya dengan baik. Kata kunci : arsitektur tropis, penghawaan alam, simulasi numerik.
Kajian Kenyamanan Termal Rumah yang Memiliki Pohon di Pekarangan pada Perumahan Mahkota Siow Kota Manado Nelvy Gosal, Priscilla; Sangkertadi, Sangkertadi; E V Wuisang, Cynthia
Jurnal Sains dan Teknologi Vol. 7 No. 1 (2025): Jurnal Sains dan Teknologi
Publisher : CV. Utility Project Solution

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55338/saintek.v7i1.1515

Abstract

Dalam Penelitian ini bertujuan untuk didapati hasil kenyamanan pada hunian yang dipengaruhi oleh adanya Pohon. Terdapat berbagai variabel didalam studi ini yang dibatasi yakni suhu udara, kelembaban udara, kecepatan angin, suhu radiasi, aktivitas manusia, dan insulasi pakaian. Dalam proses yang dilalui dalam penelitian dengan membandingkan kondisi rumah yang ada pohon dan tidak ada pohon, akan diketahui seberapa besar kenyamanan yang ada baik ruamah yang ada pohon dan tidak ada pohon. Dengan dilakukan pengukuran secara langsung ke rumah yang akan diteliti untuk mendapatkan data suhu udara, kelembaban udara, kecepatan angin, suhu radiasi, aktivitas manusia, dan insulasi pakaian. Lalu terdapat kuisioner untuk penghuni rumah yang nantinya akan dibandingkan dengan hasil yang diperoleh melalui pengukuran. Kemudian dilakukan perhitungan menggunakan program computer yaitu Deltalog 10 untuk mendapatkan hasil kenyamanan termal PMV dan PPD didalam ruangan rumah baik yang ada pohon dan rumah yang tidak ada pohon. Jadi hasilnya menunjukkan bahwa temperature rumah yang ada pohon lebih rendah dari pada rumah yang tidak ada pohon karena pohon berperan penting dalam keseimbangan kenyamanan termal, untuk menciptakan kenyamanan termal pada bangunan hunian beriklim tropis – lembab dengan meminimalisir tingginya temperatur udara, dijadikan sebagai peneduh, mengurangi polusi udara, mengeluarkan oksigen, dan mengurangi terjadinya pemanasan global dan dapat meningkatkan kenyamanan
PENGUKURAN DAN PENILAIAN KUALITAS UDARA DALAM RUANG PADA HUNIAN RUMAH SUSUN : STUDI KASUS RUSUNAWA TINGKULU MANADO Al Asy' Ary, Muhammad Farid; Sangkertadi, Sangkertadi; Waani, Judy O.
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 12 No. 1 (2024): RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi
Publisher : Universitas Bina Taruna Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37971/radial.v12i1.445

Abstract

Abstract: Measurement and Evaluation of Indoor Air Quality in Residential Low – Income Apartment : Case Study of Rusunawa Tingkulu Manado This research aims to determine the air quality in the residential space of Rusunawa Tingkulu. Indoor air quality is very vulnerable to exposure to pollution both from outside and inside the room. Poor air quality can be a contributing factor to the health and comfort of occupants of residential spaces. The focus of this research is to determine and identify air quality variables in residential spaces, namely on physical quality such as wind speed, air temperature, relative humidity, Pm2.5, Pm10, and chemical quality such as CO₂, HCHO, VOC, and O₂ levels. The method used in this research is field observation using measuring instruments as instruments for measuring variables that affect indoor air quality. Air quality data obtained from measurements are compared with standard data on ideal air requirements in the home space referring to the Regulation of the Minister of Health of the Republic of Indonesia. The data is then described in the form of graphs and tabulations, then explained descriptively. From the results of the measurements taken, it was found that the physical quality and chemical quality of CO₂ in residential spaces did not meet the required standards. Meanwhile, chemical quality variables such as HCHO, VOC, and O₂ levels have met the ideal air quality standards in residential spaces.
Analisis Desain Bukaan Ventilasi Terhadap Arah Aliran Angin pada Rumah Tinggal Misman, Archie Gilliant; Sangkertadi, Sangkertadi; Wuisang, Cynthia E. V.
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 13 No. 1 (2025): RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi
Publisher : Universitas Bina Taruna Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37971/radial.v13i1.446

Abstract

This research aims to analyze the effect of the design of ventilation in residential houses at the Royal Residence on the direction of incoming wind flow to increase indoor thermal comfort. The research was carried out using quantitative methods, where values ​​were taken by direct measurements at the location and then analyzed using CFD simulations Cradle CFD and Energy 2D. The research results show that the existing ventilation design of Casement Top Hung produces an average indoor wind speed of 0.281 m/s, not good enough to flow air into the room evenly, the Vertically Pivoted type produces an average wind speed of 1.28 m/s, and the air is channeled evenly so that the wind that enters the room provides thermal comfort to the occupants. The direction of the opening greatly influences the speed and distribution of incoming air to support air comfortable for people. The landscape greatly affects the placement of openings and the types of windows where wind can be spread throughout the room evenly to provide thermal comfort for occupants. These results can be used as an evaluation in trends of selection window types and for further research in improving the thermal comfort of residential in different landscape environmental conditions.
PENGUKURAN DAN PENILAIAN KUALITAS UDARA DALAM RUANG PADA HUNIAN RUMAH SUSUN : STUDI KASUS RUSUNAWA TINGKULU MANADO Al Asy' Ary, Muhammad Farid; Sangkertadi, Sangkertadi; Waani, Judy O.
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 12 No. 1 (2024): RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi
Publisher : Universitas Bina Taruna Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37971/radial.v12i1.445

Abstract

Abstract: Measurement and Evaluation of Indoor Air Quality in Residential Low – Income Apartment : Case Study of Rusunawa Tingkulu Manado This research aims to determine the air quality in the residential space of Rusunawa Tingkulu. Indoor air quality is very vulnerable to exposure to pollution both from outside and inside the room. Poor air quality can be a contributing factor to the health and comfort of occupants of residential spaces. The focus of this research is to determine and identify air quality variables in residential spaces, namely on physical quality such as wind speed, air temperature, relative humidity, Pm2.5, Pm10, and chemical quality such as CO₂, HCHO, VOC, and O₂ levels. The method used in this research is field observation using measuring instruments as instruments for measuring variables that affect indoor air quality. Air quality data obtained from measurements are compared with standard data on ideal air requirements in the home space referring to the Regulation of the Minister of Health of the Republic of Indonesia. The data is then described in the form of graphs and tabulations, then explained descriptively. From the results of the measurements taken, it was found that the physical quality and chemical quality of CO₂ in residential spaces did not meet the required standards. Meanwhile, chemical quality variables such as HCHO, VOC, and O₂ levels have met the ideal air quality standards in residential spaces.
Co-Authors Al Asy' Ary, Muhammad Farid Andi Malik, Andi Ardiansyah, Wisnu Fauzan Cynthia E V Wuisang Cynthia E. V. Wuisang, Cynthia E. V. Durand, Deo Victor E V Wuisang, Cynthia Fransisca Rumagit Hendrik Suryo Suriandjo Judy O. Waani Linda Tondobala Manganguwi, Ronald Misman, Archie Gilliant Nelvy Gosal, Priscilla Octavianus Hendrik Alexander Rogi Palar, Mawar Sharon Rachmat Prijadi Reni Syafriny Reny Syafriny Rumengan, Friska S, Supardjo Sigilipu, Virginia Suryono Suryono Takalao, Megahasri Dewi Wuisang, Cynthia Erlita Virgin Z, Zahra