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Made of ancient diatom skeletons, diatomaceous earth is edible to mammals but deadly to insects. De scratches through a bug's waxy exoskeleton coating turning their innards to teeny tiny bug jerky.
Dry outhouses offer a sustainable alternative to conventional flush toilets, aligning with permaculture principles of resource conservation and waste reduction. A well-designed dry outhouse, strategically situated on an elevated point to encourage water runoff, utilizes a pit for waste collection. To mitigate odors and promote composting, sawdust is a crucial element. A "no pee" policy, though challenging for women due to anatomical differences, helps maintain a dry environment, crucial for minimizing pathogen survival and groundwater contamination. This "dry" approach allows the waste to essentially mummify over time, becoming poop-jerky after two years. This aged material, though technically safe for vegetable gardens, is ideally used to nourish "poop beast" trees like willows, poplars, or cottonwoods, as part of a "willow feeder system." For optimal functionality and user comfort, urine diversion mechanisms are essential, particularly in mixed-gender settings. This separation of urine, a valuable fertilizer, further reduces the volume and toxicity of the solid waste, facilitating easier handling and nutrient cycling. The dry outhouse, therefore, presents a low-cost, eco-friendly sanitation solution that embodies the essence of permaculture's closed-loop systems.
WOFATI structures are characterized by a thoughtful design that prioritizes passive systems and natural, locally sourced materials. The "two-skin" system, composed of a double layer of polyethylene membrane, encapsulates the earthen roof, providing a durable and waterproof barrier. The lower layer hugs the structure, while the upper layer defines the thermal mass surrounding it, with at least eight inches of dirt between the layers and sixteen inches on top. WOFATI designs emphasize a harmonious integration with the surrounding woodland, incorporating the "soil on wood" building technique. This method eliminates the need for a conventional concrete foundation, making construction faster and more affordable. A distinctive feature of WOFATI houses is the large gable roof on the downhill side, often incorporating glazing to allow light penetration, while at least 35% of the uphill wall features windows for optimal passive solar gain. This strategic placement and sizing of windows is crucial for maximizing natural light and regulating internal temperature, contributing to the effectiveness of Annualized Thermal Inertia.
WOFATI structures excel in effectiveness due to their emphasis on passive design principles, particularly Annualized Thermal Inertia, which utilizes the earth's thermal mass to regulate temperature fluctuations. By strategically incorporating design elements like large windows on the uphill side and a substantial gable roof on the downhill side, WOFATIs maximize passive solar gain, further reducing the need for artificial heating and cooling. This results in significant energy savings and reduced reliance on external energy sources. The use of locally sourced, natural materials, primarily wood and earth, in WOFATI construction minimizes the environmental impact associated with manufacturing and transportation of building materials. The "two-skin" system, a double layer of membrane encapsulating the earthen roof, ensures dryness and longevity, enhancing the building's overall effectiveness and sustainability. As seen in Allerton Abbey, the first WOFATI built at Wheaton Labs, these structures successfully demonstrate the practicality and efficiency of this building technique