OSE Design

OSE teaches how to design anything using an integrated product ecology approach. OSE's university level design takes all sectors of society, and provides deep knowledge on how to design all aspects of civilization. This includes agriculture, technology, and infrastructure.

A given year has 200 lessons, and here is year 1.

General

General format is understanding scope, where it fits in civilization-building, understanding components, principles, best practices, calculations, interface design, modularity, product ecology.

1. Electrical Design Guide - house electrical systems
2. OSE Design Manual - Collaborative Literacy
3. Collaborative Design Guide - how to design collaboratively
4. Meta Design Guide - about designing in general
5. Enterprise Design Guide - how to design OSE-Spec enterprises
6. Living House Design Guide - how to add biological integration into housing.
7. Money Design Guide - how to design a distributed financial system backed by hardware-based cryptocurrency
8. Open Source Helical Piers Design Guide
9. Philosophy of Collaborative Design and Economic Time Binding
10. Mental Models - survey of various perceptions of reality towards accurate mental models. based on the principles of General Semantics
11. Geological Survey of the World - understanding rock, soil, water, oil, and other resources by classification and composition.
12. Survey of Tools and Their Use - across broad disciplines from clean room to agriculture across all sectors of society. Small and large tools.
13. How to Use FreeCAD - and collaborative workflows
14. Computer Aided Manufacturing - 3D printing, CNC torch table, robotic arms, multimachines
15. Integrated Agroecology and the Soil Food Web
16. Agricultural Equipment
17. How to Design an Aquaponic Greenhouse
18. Manufacturing Processes
19. How to Design a House
20. Structural Design and Calculations
21. Earthworks
22. Applied Physics: Physical Numeracy
23. Political Numeracy - understanding global statistics and figures
24. Organizational Psychology, Positive Psychology, and Political Ponerology
25. How to Design a Replicable Revenue Model
26. Applied Chemistry
27. Negotiation, Contracts, and Incentive Structures
28. OSE Design Manual - Universal Axis - How to Design a Precision Motion Axis System
29. OSE Design Manual - Universal Machine Controller - and automation
30. Basic Coding: Microcontrollers, Wiki, Spreadsheets
31. Basic Wood Shop: Tools and Techniques
32. Basic Metal Shop: Tools and Techniques
33. Measurement and Data Collection - from squaring foundations to precision desing - tools and techniques
34. Orders and Magnitude and Scales - expanding one's index of possibilities to all time and space scales based on natural phenomena
35. Proportions, Interior Design - having to do with numbers, applied to living spaces
36. How to Design Power Electronics - Including applied lesson of AC dimmer and
37. How to Design and Run a Circuit Mill -
38. How to Design a Plastic Extruder for 3D Printing and Other Applications
39. How to Design a Food Forest
40. How to Do Earthworks. Including digging a pond.
41. How to Design an Solar Lime Kiln
42. How to Design Rebar Trusses
43. How to Design House Framing
44. How to Design Plumbing Systems.
45. How to Design Pumps, Pistons, and Engines. Air and water. For general gas and fluid. Hydraulic, pneumatic, agriculture, industry, materials handling, clean room. Compressors. Applications from industry to carbonated drinks. Applications to Concrete/mud, Cryogenic - argon

, piston - water pump for modern steam, high pressure piston pumps, Piston, engine, Piston, hydraulic, Fuel - high pressure rail for injection, Gear - motion and high pressure pumping

1. How to Design Multifuel Piston Engines
2. How to Design Hydraulic Cylinders - for oil and water applications.
3. How to Generate Industrial Gases. Using air liquefaction, compression, and other separation techniques. Applications to Air, Carbon dioxide, Oxygen, Nitrogen, Hydrogen, Argon and others.
4. How to Design Water Systems. For Saturated Water, hot water, room temperature water, warm water, pressurized water. Steam systems. Hydronic heating systems.
5. Water Electrolysis Systems - how to design electrolyzers at all scales and pressures for the hydrogen economy.
6. How to Design Valves and Seals. Based on material type, fluid/liquid/solid, based on pressure and temperature. Pressure regulators and reducers. Fuel injector (electronic fuel injection, no carb). Steam injector (electronic steam engine). High pressure hydraulic. High pressure hydraulic solenoid

Ball valve, manual and electric, electric ball valve, Gate valve

1. How to Design Cordless Power Tools
2. How to Design Heavy Machines - survey of top important machines
3. How to Design Frames
4. How to Design Modular and Scalable Power Cube Systems - based on different fuels and power levels from solar to nuclear.
5. Designing and Milling with KiCad and Open Source CNC Circuit Mill
6. How to Design Solenoid Relays for Gases and Fluids
7. How to Design Things for Distributed Manufacturability and for 3D Printability
8. How to Design an Aquaponic Crop Plan
9. How to Design a Plant Nursery - from securing stock, pests and vermin, to marketing
10. OSE Design Manual - CNC Machine Design
11. OSE Design Manual - Electronics
12. OSE Design Manual - Toolpath Generation
13. OSE Design Manual - Hydraulics - How to Design Hydraulic Systems]]
14. OSE Design Manual - 3D Printer Extruder Design
15. OSE Design Manual - Heater Elements
16. OSE Design Manual - Motors - motors - Hydraulic, Electric, Mechanical, and Turbines
17. OSE Design Manual - Stepper Motor Controllers
18. OSE Design Manual - Geardowns
19. OSE Design Manual - Shafts and Bearings ]
20. OSE Design Manual - Couplers
21. OSE Design Manual - Pulleys, Belts, Sprockets, and Screws
22. OSE Design Manual - Force and Torque Calculations
23. OSE Design Manual - Structural Calculations
24. OSE Design Manual - Thermal Calculations - thermal design and analysis
25. Electromagnetic Design - how to understand electromagnetic forces and geometries
26. How to Design Tool Blades - saw, band, cutters, other. Typically the materials covered by tool and die studies
27. Polishing and Grinding - ultra smooth surfaces. Polished conncrete. Marble.

Machines

1. How to Design a 3D Printer. Different motion configurations, different materials, sizes. Special enclosures.
2. How to Design a Microhouse on Wheels
3. How to Design and Build a Cement Mixer
4. How to Design and Build a CNC Precision Multimachine
5. How to Design and Build a Heat Exchanger
6. How to Design and Build a 3D Scanner
7. How to Design and Build a Bulldozer
8. How to Design and Build a Backhoe
9. How to Design and Build a Ironworker
10. How to Design and Build a Dimensional Sawmill
11. How to Design and Build a CNC Torch Table
12. How to Design and Build a Trenncher
13. How to Design and Build a Gasifier Burner
14. How to Design and Build a Tractor
15. How to Design and Build a Laser Cutter
16. How to Design and Build a Soil Pulverizer
17. How to Design and Build a Universal Rotor. Applications to Tracks, saws, Trencher blade, Sawblade, insert tooth, carbide, tile, multimaterial

Universal Rotor, 3" and 2".

1. How to Design and Build a CNC Circuit Mill
2. How to Design and Build a Microtractor
3. How to Design and Build a Microhouse based on House Design Guide
4. How to Design and Build an Induction Furnace
5. How to Design and Build a Bioplastic Extruder
6. How to Design and Build a Modern Steam Engine
7. How to Design and Build a Solar Concentrator
8. How to Design and Build a Universal Power Supply
9. How to Design and Build an Open Source Truck
10. How to Design and Build a Well-Drilling Rig
11. How to Design and Build a Hay Cutter
12. How to Design and Build an Open Source Welder
13. How to Design and Build an Open Source Microcar
14. How to Design and Build an Aluminum Extractor
15. How to Design and Build a CEB Press
16. How to Design and Build a Power Cube
17. How to Design and Build a Universal Seeder
18. How to Design and Build a Spader
19. How to Design and Build a Rod and Wire Mill
20. How to Design and Build a Press Forge
21. How to Design and Build a Plasma Cutter
22. How to Design and Build a Metal Roller
23. How to Design and Build a Hay Rake
24. How to Design and Build a Hammermill
25. How to Design and Build a Bakery Oven
26. How to Design and Build a Pelletizer
27. How to Design and Build a Baler
28. How to Design and Build an Industrial Robot
29. How to Design a Hydraulic Motor
30. How to Design and Build a Microcombine
31. How to Design and Build a Dairy Milker
32. How to Design and Build a Nickel Iron Battery
33. How to Design and Build an Electric Motor. Scalable pancake motor/generator, 3D printed, coreless brushless. Solenoid - valves, linear generator

Links

• Design Guides