|
|
| Line 1: |
Line 1: |
| {{Site header}} | | {{Category=Energy}} |
| | | Electric Motors/Generators - they are everywhere, such as the spraying pump in the [[Freeze Dried Fruit Powders|freeze dried fruit powder machine]]. Electric motors of interest also double as electric generators (dynamos). The design requirement is infinite scaleability in power and speed. Thus, we could produce motors for all applications, from pumps, vaccuum pumps, to hybrid car wheel motors. Crucial. The challenge is to produce a smart design, where a larger or smaller motor can be built around the same design, such that the motor is essentially stackable for higher power. Electric generators are used in [[Bladed Turbine|turbines]], [[Wind Turbine|windmills]], stationary power, hybrid electric vehicles, etc. – they are the heart of the worldwide electric grid. |
| ----
| |
| Electric Motors/Generators (EMG) - they are everywhere, such as the spraying pump in the freeze dried fruit powder machine. Electric motors of interest also double as electric generators (dynamos). The design requirement is infinite scaleability in power and speed. Thus, we could produce motors for all applications, from pumps, vaccuum pumps, to hybrid car wheel motors. Crucial. The challenge is to produce a smart design, where a larger or smaller motor can be built around the same design, such that the motor is essentially stackable for higher power. Electric generators are used in [[turbine]]s, [[windmill]]s, [[stationary power]], [[hybrid electric vehicle]]s, etc. – they are the heart of the worldwide electric grid. | |
|
| |
|
| =Collaboration= | | =Collaboration= |
| Line 12: |
Line 10: |
|
| |
|
| ==Appropedia page: "Comparison of electric engines"== | | ==Appropedia page: "Comparison of electric engines"== |
| The [http://www.appropedia.org/Comparison_of_electrical_motors Appropedia page] reviews types and applications and also has a large number of links to 3D models. | | The [http://www.appropedia.org/Comparison_of_electrical_motors Appropedia page] reviews types and applications and also has a large number of links to 3D models. |
| | |
| == EMG - Current Work==
| |
| == EMG - Developments Needed==
| |
| === EMG - General===
| |
| === EMG - Specific===
| |
| ==== EMG - Background Debriefing====
| |
| ==== EMG - Information Work====
| |
| ==== EMG - Hardware Work====
| |
| == EMG - Sign-in==
| |
| =Development Work Template=
| |
| #[[EMG - Product Definition]]
| |
| ##[[EMG - General]]
| |
| ##[[EMG - General Scope]]
| |
| ##[[EMG - Product Ecology]]
| |
| ###[[EMG - Localization]]
| |
| ###[[EMG - Scaleability]]
| |
| ###[[EMG - Analysis of Scale]]
| |
| ###[[EMG - Lifecycle Analysis]]
| |
| ##[[EMG - Enterprise Options]]
| |
| ##[[EMG - Development Approach]]
| |
| ###[[EMG - Timeline]]
| |
| ###[[EMG - Development Budget]]
| |
| ####[[EMG - Value Spent]]
| |
| ####[[EMG - Value available]]
| |
| ####[[EMG - Value needed]]
| |
| ##[[EMG - Deliverables and Product Specifications]]
| |
| ##[[EMG - Industry Standards]]
| |
| ##[[EMG - Market and Market Segmentation]]
| |
| ##[[EMG - Salient Features and Keys to Success]]
| |
| #[[EMG - Technical Design]]
| |
| ##[[EMG - Product System Design]]
| |
| ###[[EMG - Diagrams and Conceptual Drawings]]
| |
| ####[[EMG - Pattern Language Icons]]
| |
| ####[[EMG - Structural Diagram]]
| |
| ####[[EMG - Funcional or Process Diagram]]
| |
| ####[[EMG - Workflow]]
| |
| ###[[EMG - Technical Issues]]
| |
| ###[[EMG - Deployment Strategy]]
| |
| ###[[EMG - Performance specifications]]
| |
| ###[[EMG - Calculations]]
| |
| ####[[EMG - Design Calculations]]
| |
| ####[[EMG - Yields]]
| |
| ####[[EMG - Rates]]
| |
| ####[[EMG - Structural Calculations]]
| |
| ####[[EMG - Power Requirements]]
| |
| ####[[EMG - Ergonomics of Production]]
| |
| ####[[EMG -Time Requirements]]
| |
| ####[[EMG - Economic Breakeven Analysis]]
| |
| ####[[EMG - Scaleability Calculations]]
| |
| ####[[EMG - Growth Calculations]]
| |
| ###[[EMG - Technical Drawings and CAD]]
| |
| ###[[EMG - CAM Files]]
| |
| ##[[EMG - Component Design]]
| |
| ###[[EMG - Diagrams]]
| |
| ###[[EMG - Conceptual drawings]]
| |
| ###[[EMG - Performance specifications]]
| |
| ###[[EMG - Performance calculations]]
| |
| ###[[EMG - Technical drawings and CAD]]
| |
| ###[[EMG - CAM files whenever available]]
| |
| ##[[EMG - Subcomponents]]
| |
| #[[EMG - Deployment and Results]]
| |
| ##[[EMG - Production steps]]
| |
| ##[[EMG - Flexible Fabrication or Production]]
| |
| ##[[EMG - Bill of materials]]
| |
| ##[[EMG - Pictures and Video]]
| |
| ##[[EMG - Data]]
| |
| #[[EMG - Documentation and Education]]
| |
| ##[[EMG - Documentation]]
| |
| ##[[EMG - Enterprise Plans]]
| |
| #[[EMG - Resource Development]]
| |
| ##[[EMG - Identifying Stakeholders]]
| |
| ###[[EMG - Information Collaboration]]
| |
| ####[[EMG - Wiki Markup]]
| |
| ####[[EMG - Addition of Supporting References]]
| |
| ####[[EMG - Production of diagrams, flowcharts, 3D computer models, and other qualitative information architecture]]
| |
| ####[[EMG - Technical Calculations, Drawings, CAD, CAM, other]]
| |
| ###[[EMG - Prototyping]]
| |
| ###[[EMG - Funding]]
| |
| ###[[EMG - Preordering working products]]
| |
| ###[[EMG - Grantwriting]]
| |
| ###[[EMG - Publicity]]
| |
| ###[[EMG - User/Fabricator Training and Accreditation]]
| |
| ###[[EMG - Standards and Certification Developmen]]
| |
| ###[[EMG - Other]]
| |
| ##[[EMG - Grantwriting]]
| |
| ###[[EMG - Volunteer grantwriters]]
| |
| ###[[EMG - Professional, Outcome-Based Grantwriters]]
| |
| ##[[EMG - Collaborative Stakeholder Funding]]
| |
| ##[[EMG - Tool and Material Donations]]
| |
| ##[[EMG - Charitable Contributions]]
| |
| | |
| [[Category:Energy]]
| |
Main > Energy
Electric Motors/Generators - they are everywhere, such as the spraying pump in the freeze dried fruit powder machine. Electric motors of interest also double as electric generators (dynamos). The design requirement is infinite scaleability in power and speed. Thus, we could produce motors for all applications, from pumps, vaccuum pumps, to hybrid car wheel motors. Crucial. The challenge is to produce a smart design, where a larger or smaller motor can be built around the same design, such that the motor is essentially stackable for higher power. Electric generators are used in turbines, windmills, stationary power, hybrid electric vehicles, etc. – they are the heart of the worldwide electric grid.
Collaboration
Review of Project Status
Start with some dullish background. Move onto real people involved in the industry - such as Hi-Torque Electric. Move over to advanced electrical generator options, such as bladeless turbines. Include open source motor controls, such as Source Motor Controller, but upgraded to full scaleability in voltage and power. There you have the context for electric motor development. Applications are many: hybrid electric cars and tractors, and dedicated electric motors for moving parts in advanced devices such as agricultural combines, with potential of significant simplification of mechanical devices.
Presently, we are seeking to identify someone working on open source electric motors.
Appropedia page: "Comparison of electric engines"
The Appropedia page reviews types and applications and also has a large number of links to 3D models.