APLIKASI RESILIENSI ARSITEKTUR TROPIS PADA RENOVASI DISAIN MASJID (STUDI KASUS DISAIN MASJID BAITUL HIKMAH LOSARI BREBES)
Keywords:
Renovasi, Resiliensi, Masjid, Arsitektur Tropis, Aspek hujan, Aspek sirkulasi udara
Renovasi, Resiliensi, Masjid, Arsitektur Tropis, Aspek hujan, Aspek sirkulasi udara
Abstract
Pemahaman Resiliensi dalam ilmu rekayasa keteknikan khususnya pada Ilmu Arsitektur untuk daerah tropis sebenarnya bukan hal yang baru. Kebertahanan suatu disain karena factor iklim sudah puluhan tahun terkonsep dan aplikasinya dikenal dengan Design with Climate . Maraknya pembangunan masjid di berbagai tempat tentunya akan menambah kenyamanan beraktifitas dalam menjalankan ibadahnya bilamana kegiatan didalamnya tidak terganggu oleh dampak cuaca ekstrem, bilamana element disain bagian bangunan ini didisain tanggap terhadap factor cuaca.
Dalam kegiatan perencanaan kembali disain masjid di desa negla kecamatan Losari Kabupeten Brebes ini, dikemas menjadi kegiatan pengabdian kepada masyarakat mengaplikasikan beberapa hasil penelitian sebelumnya dan kajian refeseni lain dari konsep Resiliensi pada suatu bangunan.
Ada 2 (dua) aspek pendekatan disain, yaitu kajian disain masjid dan kajian resiliensi arsitektur tropis bangunan masjid.
Dan hasilnya adalah secara prinsip aplikasi disain berkonsep resiliensi iklim tropis yang terterapkan ada pada respond hujan, pancaran sinar matahari yang berlebihan dan mengoptimalkan surkulasi udara, yang teraplikasi pada selubung bangunan masjid.
Downloads
Download data is not yet available.
References
Alain, Liebard, and Andre de Herd. 2010, Bioclimatic Facades, London: Somfy.
Brager, GS, and R De Dear. 2001, Climate, Comfort & Natural Ventilation : A new Adaptive comfort standard for ASHRAE Standard 55." Moving Thermal Comfort Standards into the 21st Century. Windsor UK: Loughborough University,. .
BMG, 2017, http://www.bmkg.go.id/BMKG_Pusat/Informasi_Cuaca)
Cantatore , Elena, Mariella De Fino, and Fabio Fatiguso. 2017: Energy resilience of historical urban districts: a state of art review towards a new approach. Energy Procedia 111, 426 434.
Frick, Heinz, and Antonius Darmawan. 2007. Ilmu Fisika Bangunan. Jogjakarta: Kanisius,
Glantz, M, and J Johnson. 2002. Resilience and development positive life adaptation. USA: Kluwer Academic Publisher,
I Chand, PK Bhargava, LNV Krishak, 1998, Effect of Balconies on Ventilation Induching Aeromative Force on Low-rire Buildings. Building and Environment, 385-396.
Gallo, C, M Sala, and A.M.M Sayigh. 1988. Architecture, Comfort and Energy. Great Britain - UK: Pergamon.
Katia Perini, Adriano Magliocco. 2014, Effects of vegetation, urban density, building height, and atmospheric conditions on local temperatures and thermal comfort. Urban Forestry & Urban Greening Vol. 13 , 495506.
Karyono, Tri Harso, 2010. Green Arsitektur-Pengantar Pemahaman Arsitektur Hijau di Indonesia. Jakarta: Rajawali Pers,
Lippsmeier, Georg. 1994. Bangunan Tropis. Jakarta: Erlangga,
Maddi, S, and D Khoshaba. 2005. Resilience at work: How to succed no matter what life throws at you. USA: American Management Association,
Mandala, Zeji. 2013. Resilient Infrastructure: Konsep dan Strategi Perencanaan Pembangunan Transportasi Berkelanjutan - Studi Kasus Kota Curitiba, Brazil. Master in Urban and Regional Planning, Jogyakarta: Universitas Gadjah Mada,
Norman, E. 2000. Resiliency enhancement: Putting the strength perspective into social work practice. New York: Columbia University Press,
Olgay, Victor. 1973, Design with Climate - Bioclimatic Approach to Architectural Regionalism. New Jersey - USA: Princeton University Press.
Prianto, E., Houpert, S., Depecker, P., & Peneau, J.-P. 2001. Coinstribution of Numerical Simulation with SOLENE to find out the Traditional Type Cayenne - Guyana France. International Journal on Architecture Science , 156-175.
Prianto, Eddy and Depecker, Patrick, 2003: Constribution of N3S Numerical Simulation in Investigating the influence of Internal Devision Design on Indoor Air Speed. International Journal on Architecture Science, 114-122.
Prianto, Eddy, and Patrick Depecker, 2002, Characteristic of airflow as the effect of balcony, opening design and internal division on indoor velocity: A case study of traditional dwelling in urban living quarter in tropical humid region. Energy and Buildings, Volume 34, Issue 4,: 401409.
Prianto, Eddy, and Patrick Depecker, 2003. Optimazion of Architectural Design Elements in Tropical Humid Region with Thermal Comfort Approach. Energy and Buildings: 273-280.
Prianto, Eddy, Jaka Windarta and Bernard Harianja, 2017, The Role of Vegeration and Open Space in The Energy Effeciency - of Tropical Building, Advanced Science Letters, Volume 23, Number 3, March, pp. 2211-2214
Prianto, Eddy. 2010, Effek warna dinding terhadap pemakaian energi listrik dalam rumah tinggal. RIPTEK, 31-35.
Prianto, Eddy. 2011, Effek Penggunaan Batu Alam pada Fasad rumah tinggal terhadap pemakaian energi listrik. RIPTEK, 53-60.
Prianto, Eddy. 2012: Strategi Disain Fasad Rumah Tinggal Hemat Energi. RIPTEK, 55-65.
Prianto, Eddy. 2013: Pilihan Bentuk Tritisan Hemat Energi untuk Kota Semarang. Riptek, 37-56.
Prianto, Eddy. Dwiyanto, Agung, 2015, Profil penutup atap beton dalam effesiensi konsumsi energy listrik pada skala Rumah Tinggal, Jurnal Modul
Prianto, Eddy. Suyono, Bambang, Septana dan Sahid, 2017, Resilient bangunan tropis pada Bangunan Kampus Universitas Diponegoro, Jurnal Modul (in progress)
Prianto. E, Wahyudi, E dan Kusumastuti, R.P, 2015, Metode Pendokumentasian Data Bangunan Kuno di Semarang dengan Kritik Normative (Studi kasus pada Gedung Lawang Sewu), Riptek.
Prianto. E, 2007, Rumah Tropis Hemat Energi, bentuk keperdulian Global Warming, Riptek, 1-10.
Robert, D.Brown, and Terry J Gillespie, 1995. Microclimatic Lanscape Design. Canada: John Wiley & Sons,Inc.,
Soegijanto. 1998. Bangunan di Indonesia dengan iklm tropis lembab ditinjau dari aspek fisika bangunan. Bandung: DIKTI
Sugiyono. (2009). Metode Penelitian Kuantitatif, Kualitatif, dan R&B. Bandung: Alfabeta.
Sharifia, E, and J Bolanda. 2017, Heat resilience in public space and its applications in healthy and low carbon cities). Procedia Engineering 180, 2017: 944 954,.
SNI 03-6575-2001, 2001, Tata cara perancangan sistem pencahayaan buatanpada bangunan gedung.Jakarta.
Tapan, K. Dhar, and Khirfan Luna. 2017, A multi-scale and multi-dimensional framework for enhancing the resilience of urban form to climate change. Urban Climate, 72-91.
www.arquinstal.com.ar/publicaciones/ure-esso - facebook/ARQQUILCURA
Brager, GS, and R De Dear. 2001, Climate, Comfort & Natural Ventilation : A new Adaptive comfort standard for ASHRAE Standard 55." Moving Thermal Comfort Standards into the 21st Century. Windsor UK: Loughborough University,. .
BMG, 2017, http://www.bmkg.go.id/BMKG_Pusat/Informasi_Cuaca)
Cantatore , Elena, Mariella De Fino, and Fabio Fatiguso. 2017: Energy resilience of historical urban districts: a state of art review towards a new approach. Energy Procedia 111, 426 434.
Frick, Heinz, and Antonius Darmawan. 2007. Ilmu Fisika Bangunan. Jogjakarta: Kanisius,
Glantz, M, and J Johnson. 2002. Resilience and development positive life adaptation. USA: Kluwer Academic Publisher,
I Chand, PK Bhargava, LNV Krishak, 1998, Effect of Balconies on Ventilation Induching Aeromative Force on Low-rire Buildings. Building and Environment, 385-396.
Gallo, C, M Sala, and A.M.M Sayigh. 1988. Architecture, Comfort and Energy. Great Britain - UK: Pergamon.
Katia Perini, Adriano Magliocco. 2014, Effects of vegetation, urban density, building height, and atmospheric conditions on local temperatures and thermal comfort. Urban Forestry & Urban Greening Vol. 13 , 495506.
Karyono, Tri Harso, 2010. Green Arsitektur-Pengantar Pemahaman Arsitektur Hijau di Indonesia. Jakarta: Rajawali Pers,
Lippsmeier, Georg. 1994. Bangunan Tropis. Jakarta: Erlangga,
Maddi, S, and D Khoshaba. 2005. Resilience at work: How to succed no matter what life throws at you. USA: American Management Association,
Mandala, Zeji. 2013. Resilient Infrastructure: Konsep dan Strategi Perencanaan Pembangunan Transportasi Berkelanjutan - Studi Kasus Kota Curitiba, Brazil. Master in Urban and Regional Planning, Jogyakarta: Universitas Gadjah Mada,
Norman, E. 2000. Resiliency enhancement: Putting the strength perspective into social work practice. New York: Columbia University Press,
Olgay, Victor. 1973, Design with Climate - Bioclimatic Approach to Architectural Regionalism. New Jersey - USA: Princeton University Press.
Prianto, E., Houpert, S., Depecker, P., & Peneau, J.-P. 2001. Coinstribution of Numerical Simulation with SOLENE to find out the Traditional Type Cayenne - Guyana France. International Journal on Architecture Science , 156-175.
Prianto, Eddy and Depecker, Patrick, 2003: Constribution of N3S Numerical Simulation in Investigating the influence of Internal Devision Design on Indoor Air Speed. International Journal on Architecture Science, 114-122.
Prianto, Eddy, and Patrick Depecker, 2002, Characteristic of airflow as the effect of balcony, opening design and internal division on indoor velocity: A case study of traditional dwelling in urban living quarter in tropical humid region. Energy and Buildings, Volume 34, Issue 4,: 401409.
Prianto, Eddy, and Patrick Depecker, 2003. Optimazion of Architectural Design Elements in Tropical Humid Region with Thermal Comfort Approach. Energy and Buildings: 273-280.
Prianto, Eddy, Jaka Windarta and Bernard Harianja, 2017, The Role of Vegeration and Open Space in The Energy Effeciency - of Tropical Building, Advanced Science Letters, Volume 23, Number 3, March, pp. 2211-2214
Prianto, Eddy. 2010, Effek warna dinding terhadap pemakaian energi listrik dalam rumah tinggal. RIPTEK, 31-35.
Prianto, Eddy. 2011, Effek Penggunaan Batu Alam pada Fasad rumah tinggal terhadap pemakaian energi listrik. RIPTEK, 53-60.
Prianto, Eddy. 2012: Strategi Disain Fasad Rumah Tinggal Hemat Energi. RIPTEK, 55-65.
Prianto, Eddy. 2013: Pilihan Bentuk Tritisan Hemat Energi untuk Kota Semarang. Riptek, 37-56.
Prianto, Eddy. Dwiyanto, Agung, 2015, Profil penutup atap beton dalam effesiensi konsumsi energy listrik pada skala Rumah Tinggal, Jurnal Modul
Prianto, Eddy. Suyono, Bambang, Septana dan Sahid, 2017, Resilient bangunan tropis pada Bangunan Kampus Universitas Diponegoro, Jurnal Modul (in progress)
Prianto. E, Wahyudi, E dan Kusumastuti, R.P, 2015, Metode Pendokumentasian Data Bangunan Kuno di Semarang dengan Kritik Normative (Studi kasus pada Gedung Lawang Sewu), Riptek.
Prianto. E, 2007, Rumah Tropis Hemat Energi, bentuk keperdulian Global Warming, Riptek, 1-10.
Robert, D.Brown, and Terry J Gillespie, 1995. Microclimatic Lanscape Design. Canada: John Wiley & Sons,Inc.,
Soegijanto. 1998. Bangunan di Indonesia dengan iklm tropis lembab ditinjau dari aspek fisika bangunan. Bandung: DIKTI
Sugiyono. (2009). Metode Penelitian Kuantitatif, Kualitatif, dan R&B. Bandung: Alfabeta.
Sharifia, E, and J Bolanda. 2017, Heat resilience in public space and its applications in healthy and low carbon cities). Procedia Engineering 180, 2017: 944 954,.
SNI 03-6575-2001, 2001, Tata cara perancangan sistem pencahayaan buatanpada bangunan gedung.Jakarta.
Tapan, K. Dhar, and Khirfan Luna. 2017, A multi-scale and multi-dimensional framework for enhancing the resilience of urban form to climate change. Urban Climate, 72-91.
www.arquinstal.com.ar/publicaciones/ure-esso - facebook/ARQQUILCURA
Published
2018-01-30
How to Cite
PriantoE., SeptanaS., SuyonoB. and SahidM. (2018) “APLIKASI RESILIENSI ARSITEKTUR TROPIS PADA RENOVASI DISAIN MASJID (STUDI KASUS DISAIN MASJID BAITUL HIKMAH LOSARI BREBES)”, Jurnal Penelitian dan Pengabdian Kepada Masyarakat UNSIQ, 5(1), pp. 24-41. doi: https://doi.org/10.32699/ppkm.v5i1.436.
Section
Articles
