BLENDER SMARTWRAP MAC
Unfortunately I cant offer proper mac support because I dont own a mac to run tests on and cant guarantee it works properly.Ĭheckout the installation guide for details. The first SmartWrap™ prototype included one layer of PET with thin-film batteries, thin-film PVs and OLEDs adhered and a second layer of PET with PCMs and aerogel insulation.Īpplication of thin-film photovoltaic cells and copper circuitry.ĭetail of technology adhered to the PET substrate.Retopology is a slow process, so lets not do it more than once! SoftWrap can reutilize previous models as topology for your new models!
The second SmartWrap™ prototype, deployed in 2008, incorporated multiple layers of PET, with thin-film PVs adhered to the exterior and solar heat and UV blocking film on the interior. Temperature sensors were added to provide a more complete understanding of the insulative capacities of the building envelope, the efficacy of the thermal stack, and the dynamics between outdoor temperatures and the interior environment of the house. SmartWrap™ on display at the Cooper-Hewitt National Design Museum in New York City in 2003.Īt the time, some components such as OLED and PCM technologies were only emerging, and there was no developed system for organic printing onto a substrate. The fabricator, Universal Services Associates, Inc., built a custom table to stretch the PET to achieve the best balance of tension and stability for the frames.įor the purposes of the exhibition in 2003, it was necessary for the systems to be adhered to the PET by hand. The table included a template to guide the placement of thin-film PVs. Section view of the prototype's thin PET layers as displayed at the Cooper-Hewitt National Design Museum. The desire to reimagine the traditional building envelope, and to replace the expected brick-and-mortar or glass assemblies, propelled the creation of SmartWrap™.
BLENDER SMARTWRAP SKIN
It is a mass customizable, energy-generating, lightweight, and sustainable envelope that integrates the segregated functions of a conventional wall into a multi-layer skin of just a few millimeters in thickness, which can be wrapped around the structural frame of a building. The research and development of SmartWrap™ began in collaboration with industry partners, including DuPont and ILC Dover (best known for creating space suits for NASA). The concept needed to combine several technologies from various industries in order to meet the requirements of shelter, climate control, lighting, information display, and power. Among the substrates researched, polyethelyne terephthalate (PET), a material used in boat sails and soda bottles, proved the best option for shelter against rain and wind. PET is colorless, transparent, and inexpensive, with high mechanical strength. Other layers would contribute additional functionality, including phase change materials (PCMs) to moderate temperature, and organic light emitting diode (OLED) technology to supply light and allow for information display similar to a computer screen. Thin-film photovoltaic cells and batteries that gather and store solar energy would take advantage of large surface areas exposed to the sun on the envelope of a building. Seventy-two SmartWrap™ panels were made to enclose Cellophane House™, an off-site fabricated dwelling. In 2008, the original concept for SmartWrap™ was refined and advanced through the design of Cellophane House™, an 1,800-square foot dwelling commissioned by The Museum of Modern Art.
To experiment with active and passive thermal strategies, the SmartWrap™ wall assembly consisted of four functioning layers tensioned on an extruded aluminum frame. Each wall panel included an outer transparent PET weather barrier, an inner PET layer with thin-film photovoltaic cells, an inner layer of solar heat and UV blocking film, and an interior layer of PET. During the exhibition, sensors on the west facade of the house collected thermal data to provide a more complete understanding of its insulative and convective capacity.Ĭompared to current transparent envelope systems, SmartWrap™ is designed to realize significant environmental benefits.Ī vented cavity between the PET layers was designed to trap heat in the winter and vent it in the summer, reducing the amount of energy required to heat and cool the house. SmartWrap™ is lightweight, resulting in a lower total embodied energy when compared to glass, and its thinness results in large surface-area coverage with a minimal volume of material relative to glass curtainwall assemblies. It can be erected in a fraction of conventional building time, with greater efficiency.
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