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The SKIP (Skills to Inherit Property) program, designed to connect aspiring homesteaders ("Skippers") with landowners seeking successors ("Otisies"), centers around the completion of practical projects called "Badge Bits" (BBs). To join, create a free account on permies.com and choose BBs from the PEP (Permaculture Experience according to Paul) curriculum. These BBs, encompassing skills like gardening and natural building, are documented through photos and videos, which are then reviewed by the permies.com community. As Skippers complete BBs, they earn progressively advanced badges — Sand, Straw, Wood, and Iron — showcasing their skills to potential Otisies. While the program is free, attending the annual SKIP event at Wheaton Labs, where BBs are taught, costs $2,250. The permies.com forums also play a vital role, providing a platform for Skippers to connect and share experiences.

Hugelkultur is a raised garden bed building technique where wood is buried ("soil on wood") under soil. Hugelkultur, which means "hill culture" in German, can be implemented on a small scale in backyards or on a large scale, as demonstrated by Sepp Holzer, a renowned permaculture practitioner who uses hugelkultur in his terraced gardens. This technique involves layering logs, branches, twigs, and even whole trees, creating a foundation for the bed. This buried wood becomes "a sponge to hold water", reducing or eliminating the need for irrigation. As the wood decomposes, it attracts beneficial microorganisms and creates air pockets, leading to nutrient-rich, fertile soil. Hugelkultur helps gardeners "grow a typical garden without irrigation or fertilization". This technique can be used to grow garden plants like "rhubarb", "potatoes", and more. Hugelkultur is an example of permaculture design, which emphasizes sustainability, self-sufficiency, and working with natural systems

WOFATI, an acronym for Woodland Oehler Freaky-cheap Annualized Thermal Inertia, is an innovative approach to sustainable building developed by permaculture expert Paul Wheaton. WOFATI structures are designed to be eco-friendly, utilizing locally sourced natural materials, primarily wood and earth. These structures are intended to be located on or near woodlands, promoting a harmonious integration with the natural surroundings. Annualized Thermal Inertia, a key element of WOFATI design, harnesses the thermal mass of the surrounding earth to provide passive heating in winter and cooling in summer, thereby minimizing the need for artificial temperature regulation. WOFATI structures are inspired by the work of Mike Oehler, a pioneer in earth-sheltered building known for his simple, "freaky-cheap" designs, which Wheaton has adapted and refined to further reduce construction costs. WOFATI buildings are typically characterized by a large gable roof on the downhill side, with at least 35% of the uphill wall featuring glass or other light-transmitting materials to maximize passive solar gain. Allerton Abbey, the first WOFATI structure, and Wofati 0.8 are both located at Wheaton Labs in Montana and serve as prominent examples of this unique building style.

Hugelkultur, is a permaculture garden bed technique where wood is buried under the soil. It can be built in a variety of shapes and sizes, and can be used for growing a variety of "garden plants". The decomposing wood acts "like a sponge to hold water", making hugelkultur ideal for areas that receive little rainfall. Over time, the wood shrinks and creates air pockets, resulting in a self-tilling garden bed. This "soil on wood" technique helps to retain moisture and nutrients in the soil, which benefits the plants. Hugelkultur is an environmentally sustainable gardening technique because it uses wood that might otherwise be discarded.

The lorena is an innovative cooktop design specifically for rocket stoves, aimed at enhancing heat transfer and overall cooking efficiency. It functions by incorporating a metal plate featuring a central hole positioned directly above the rocket stove's burn chamber. This central hole allows for direct heat application to large pots, ensuring rapid heating. Furthermore, the metal plate itself serves as an additional cooking surface, offering versatility for various cooking tasks. The lorena's design seeks to maximize the utilization of heat generated by the rocket stove, making it an energy-efficient cooking solution. Proposed implementations of the lorena often include integration into an outdoor kitchen setting, enhancing its practicality. The sources mention the lorena as an example of the continuous innovation and improvement within the realm of rocket stove technology.