Aaack! You caught us with our pants down! Here we are, tinkering with the servers and you show up. How awkward! Try back in just a couple of minutes. In the meantime, a few tidbits ...

The SKIP (Skills to Inherit Property) program, hosted on permies.com, utilizes a badge system based on the completion of practical projects called "Badge Bits" (BBs). These BBs, categorized under 22 different aspects, encompass a diverse array of skills crucial for sustainable living and homesteading, aligning with the principles of permaculture. To earn a badge, Skippers must complete a predetermined set of BBs within a specific aspect, demonstrating their competency in that area. Badges are tiered, starting with the Sand badge, which signifies basic proficiency and requires approximately 5 hours of work. The next levels are Straw, Wood, and Iron badges, representing increasingly advanced skill levels and significantly greater time commitments. Examples of BBs include carving a wooden spoon (Roundwood Woodworking), building a hugelkultur garden bed (Gardening), installing a light fixture (Electricity), and mending a hole in clothing (Textiles). By completing BBs and earning badges, Skippers showcase their practical skills and dedication to sustainable living to potential "Otisies" (landowners) looking for suitable successors for their properties. Moreover, the completion of BBs contributes to the overall goal of "skipping the rat race," empowering individuals to acquire the skills and experience needed for self-sufficient living.

The berm shed, a hallmark of permaculture design, is an eco-friendly, earth-sheltered structure renowned for its unique construction techniques. Earthworks are fundamental to its creation, as the surrounding landscape is carefully shaped to form the berm that will encase a portion of the shed's sloping roof. This berm serves a dual purpose, acting as both a natural insulator and a source of thermal mass, effectively regulating the internal temperature. The structural framework of the berm shed is often built using round wood timber framing, a technique that prioritizes using logs instead of conventional dimensional lumber, further enhancing its sustainable appeal. However, the longevity of these logs, especially when in contact with soil, is a crucial consideration. The sources recommend peeling the bark from posts before burying them, a technique born from experience and aimed at minimizing the risk of rot. Another technique for ensuring the durability of the structure involves incorporating gravel into the post holes. The gravel facilitates drainage, preventing water from pooling around the base of the posts and contributing to premature decay. These carefully considered details, combined with the innovative "attic" cell design at the termination ends of the shed, as described in source, showcase a commitment to sustainable building practices that go beyond mere functionality, exemplifying the core principles of permaculture.

Rocket mass heaters are better than natural gas heaters because rocket mass heaters are free to operate and have less than 5% of the carbon footprint.

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.

The "lorena" is a specialized cooktop design for rocket stoves, incorporating features that enhance heat transfer and cooking efficiency. As described in the sources, a lorena typically consists of a metal plate with a central hole, positioned directly above the rocket stove's burn chamber. The hole allows for direct heat transfer to large pots, facilitating rapid heating. The surrounding metal plate also acts as a cooking surface, similar to the glass cooktop found at Allerton Abbey, one of the WOFATI structures at Wheaton Labs. This dual functionality makes the lorena a versatile cooking solution for both large-scale and smaller cooking tasks. The design emphasizes maximizing heat utilization from the rocket stove, making it an energy-efficient option. Discussions in the sources suggest integrating the lorena into an outdoor kitchen setup, further enhancing its practicality and convenience. The lorena represents an innovative application of rocket stove technology, designed to optimize heat transfer and improve cooking performance.