XYZ
‘XYZʼ challenges conventional architectural practices by investigating a novel and conceptual form that emerges directly from an expanded thermodynamic concept itself. ‘XYZʼ employs a nested wall system where the interstitial spaces between the layers of wall components expand to form actual physical rooms. By nesting each layer with distinct thermal properties outward in three directions (X, Y, Z), the project establishes a gradient of climatic zones from its inner thermal core or exterior. This gradient responds to climate conditions, occupant usage patterns, and varying metabolic levels.
‘XYZʼ incorporates a dynamic dispersive system that understands energy movement in a transient condition that incorporates time factor, as an alternative to conventional isolated static systems. This novel yet archaic strategy engineers energy to cycle through the space over time, aligning with occupant diurnal patterns. By calibrating material thermal properties, this project achieves an optimal phase shift and a high heat storage capacity. This enables energy actively generated at night to be stored and subsequently dispersed to other areas when needed, maximizing its efficacy in the challenging New England climate.
‘XYZʼ also optimizes the capture of ambient energy through passive means and creates a buffer zone. The sun room functions as a habitable Trombe wall, providing preheated air to other rooms during colder periods. Ultimately, XYZʼs thermal strategy promotes a wide range of occupant activities by providing a suitable environment for each activity and fostering healthy, comfortable indoor/outdoor climate conditions. Through dynamic energy breathing, XYZ offers an alternative model for a house design.