Green Management for Disaster in the Form of an Inflatable Tent Prototype with a Solar Power Plant Hery Budiyanto (a*), Nurhamdoko Bonifacius (b), Aries Boedi Setiawan (c)
a) Architecture Department, Post Graduate, University of Merdeka Malang, Jl. Terusan Raya Dieng 62-64 Malang
*hery.budiyanto[at]unmer.ac.id
b) Architecture Department, Post Graduate, University of Merdeka Malang, Jl. Terusan Raya Dieng 62-64 Malang
nurhamdoko.boni[at]unmer.ac.id
c) Electrical technology Department, Faculty of Engineering, University of Merdeka Malang, Jl. Terusan Raya Dieng 62-64 Malang
aries[at]unmer.ac.id
Abstract
Disasters are a very comprehensive and multi-dimensional discussion. In response to disasters whose frequency continues to increase every year, thinking about disaster management must be understood and implemented by all parties in a comprehensive manner towards green management and technology. This research begins with the problem of disaster preparedness management which currently uses less environmentally friendly facilities and infrastructure, including using tents with conventional structures and technological systems that are less flexible and requires electricity with a gasoline-fueled generator. One solution is a prototype of an inflatable tent with energy. solar electricity. The aim of this research is to create a green technology-based disaster response facility in the form of an inflatable tent prototype for disaster preparedness using solar electricity. This research uses experimental and action research methods in the form of designing and manufacturing a prototype of an inflatable tent with a solar power generator. Tests were carried out on variables: tarpaulin strength, construction and demolition speed, thermal comfort, and effectiveness of solar power generation. The research results obtained are: design and implementation of two prototype inflatable tents measuring 6x9 m2 for a capacity of 20 patients, a 3,600 WP solar power plant and a 48 Volt 200 Ah VRLA battery capable of storing 4,800 watts of electricity, thus meeting electricity needs for air conditioning, lighting and medical equipment in inflatable tents without using electricity from the state electricity company or gasoline generators.
Keywords: disaster, inflatable tent, solar power generation
