Knowledge fuels change - Support energypedia!
For over 10 years, energypedia has been connecting energy experts around the world — helping them share knowledge, learn from each other, and accelerate the global energy transition.
Today, we ask for your support to keep this platform free and accessible to all.
Even a small contribution makes a big difference! If just 10–20% of our 60,000+ monthly visitors donated the equivalent of a cup of coffee — €5 — Energypedia would be fully funded for a whole year.
Is the knowledge you’ve gained through Energypedia this year worth €5 or more?
Your donation keeps the platform running, helps us create new knowledge products, and contributes directly to achieving SDG 7.
Thank you for your support, your donation, big or small, truly matters!
Difference between revisions of "Hybrid Systems"
***** (***** | *****) m |
***** (***** | *****) m |
||
| Line 1: | Line 1: | ||
| − | |||
= Overview<br/> = | = Overview<br/> = | ||
| Line 25: | Line 24: | ||
*[[System Analysis of Electricity Infrastructure Evolution Using Hybrid Method Simulation Tool|System Analysis of Electricity Infrastructure Evolution Using Hybrid Method Simulation Tool]]<br/> | *[[System Analysis of Electricity Infrastructure Evolution Using Hybrid Method Simulation Tool|System Analysis of Electricity Infrastructure Evolution Using Hybrid Method Simulation Tool]]<br/> | ||
| − | *[[ | + | *[[Smart Grid on Main Street: Electricity and Value-added Processing for Agricultural Goods in Rural Haiti|Smart Grid on Main Street: Electricity and Value-added Processing for Agricultural Goods in Rural Haiti]]<br/> |
<br/> | <br/> | ||
| Line 33: | Line 32: | ||
<references /><br/> | <references /><br/> | ||
| + | [[Category:Rural_Development]] | ||
| + | [[Category:Rural_Electrification]] | ||
| + | [[Category:Photovoltaic_(PV)]] | ||
| + | [[Category:Diesel]] | ||
[[Category:Hybrid_Systems]] | [[Category:Hybrid_Systems]] | ||
| − | |||
| − | |||
| − | |||
| − | |||
Revision as of 09:17, 19 December 2014
Overview
With decreasing Photovoltaic (PV) prices, PV / diesel hybrid minigrids attract significant attention from institutions in charge of rural electrification and donor agencies - to mitigate fuel price increases, deliver operating cost reductions, and offer higher service quality than traditional single-source generation systems. The combining of technologies provides interesting opportunities to overcome certain technical limitations.[1]
Definition
A hybrid system is a dynamic system that exhibits both continuous and discrete dynamic behavior – a system that can both flow and jump. Often, the term "hybrid dynamic system" is used, to distinguish over hybrid systems such as those that combine neural nets and fuzzy logic, or electrical and mechanical drivelines. A hybrid system has the benefit of encompassing a larger class of systems within its structure, allowing for more flexibility in modelling dynamic phenomena.
Examples
► Please add further interesting examples and set internal or external links
- Diesel-PV Hybrid System Without Battery Storage
- Solar Hybrid System for Rural Electrification in Malaysia
Further Information
- System Analysis of Electricity Infrastructure Evolution Using Hybrid Method Simulation Tool
- Smart Grid on Main Street: Electricity and Value-added Processing for Agricultural Goods in Rural Haiti
References
- ↑ IEA: Rural Electrification with PV Hybrid Systems Overview and Recommendations for Further Deployment: http://www.res4med.org/uploads/studies/1407260494Rural_Electrification_with_PV_Hybrid_systems_-_T9_-_11072013_-_Updated_Feb2014%20%288%29.pdf
