Desol

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==Mission Statement==
==Mission Statement==
This is a strategy to integrate renewable energy system technology into the social and physical infrastructure of Cape Verde and help the country achieve it's goal of having 50% of the country's energy supply come from renewable sources by 2020.
This is a strategy to integrate renewable energy system technology into the social and physical infrastructure of Cape Verde and help the country achieve it's goal of having 50% of the country's energy supply come from renewable sources by 2020.
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==Project Overview==
==Project Overview==
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The cost of the first phase of the program is still unknown. Most of the financing, however, will go toward purchasing renewable energy systems (RES) example materials for class and teacher salaries.
The cost of the first phase of the program is still unknown. Most of the financing, however, will go toward purchasing renewable energy systems (RES) example materials for class and teacher salaries.
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<flickr>3941762489|thumb|m|left|wind bw</flickr>
==Justification==
==Justification==

Revision as of 21:14, 21 September 2009


Desol
Flag of Cape Verde.svg

Project Type(s): Project Sector(s): Environment Environment.gif
Community Development Community Development.gif

Country: Cape_Verde
Volunteer(s) Name: Brian Newhouse
Volunteer(s) Homestate: Georgia
Volunteer(s) Home city: Atlanta
Year of project approval: 0 BCwarning.pngThe given value was not understood.
[[2009
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|Projects started]] in Cape_Verde [http://www.peacecorpswiki.org/Special:BrowseData/Years?_subcat=2009
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2009
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] [[:Category:Cape_Verde_projects_2009
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|(0)]].
Assomada Solar Desalination Project, Boys Camp 2009, Desol, Fog Collection System Serra Malaguetta, High School Drafting Course, People to water cycle, Restoration of School Furniture and Equipment, Small Enterprise Development Project on the Island of Fogowarning.pngThe given value was not understood.
Flag of Cape Verde.svg
Other Projects in Cape_Verde (10).
Assomada Solar Desalination Project, Boys Camp 2009, Desol, Fog Collection System Serra Malaguetta, High School Drafting Course, People to water cycle, Restoration of School Furniture and Equipment, Small Enterprise Development Project on the Island of Fogo
State Flag of Georgia.svgOther Projects by Volunteers from Georgia (12).
Assomada Solar Desalination Project, Atakpamé HIV/AIDS Run for World AIDS Day, Atakpamé HIV/AIDS Run for World AIDS Day, Duane Benson, Camp Latrines, Desol, Ecotourism Project Embera Indian Tribe Panama, Gender Seminar, Health Dispensary, High School Drafting Course, Kindergarten Building, Kivsharivka Youth Journalism Project II, Latrine Construction, Eric Lenaeus, Brandon Marlow … further results
Other Independent Projects by Volunteers (13).
Environment.gifOther Environment Projects by Volunteers (125).
Achajur Water Supply Pipeline Mapping, Desol, Outdoor Ambassadors Summer Program, Training and Environmental Education for the Guides and Students of Alfkoara and W National Park, Uzhgorod Sheltered Workshop, Vinnitsia Clean City Project
Community Development.gifOther Community Development Projects by Volunteers (42).
Desol, Uzhgorod Sheltered Workshop, Vinnitsia Clean City Project
Don't see your Project, Add yours!


Info about the Desol[[category:2009

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[[category:Cape_Verde_projects_2009

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Contents

Mission Statement

This is a strategy to integrate renewable energy system technology into the social and physical infrastructure of Cape Verde and help the country achieve it's goal of having 50% of the country's energy supply come from renewable sources by 2020.

windpower
windpower

Project Overview

The Capeverdean Government set a goal to meet 50% of its energy needs by 2020 through renewable sources and convert one island to run on 100% renewable energy. It has also set a goal to have 100% electrical coverage throughout the country by 2015. These are ambitious goals for the small, prosperous African island nation. However, they are doable. This proposal outlines a strategy that would help Cape Verde achieve these goals within the proposed timeline.

Local assessment and education are the foundation of this proposal:

Assessment map small
Assessment map small

Cape Verde, a country with nine inhabited islands, is divided into 17 counties (now 22). Each one of these counties is further divided into smaller zones or neighborhoods. Phase I of this project is an assessment, to be performed in collaboration with ELECTRA (the energy company) and each local municipal government, of the energy needs of each zone. These needs will be based on whether the zone has electricity or not, and whether the source of electricity is fueled based or renewable. The proposal suggests to draw a map of the entire country and color each zone based on its current energy status. This assessment map will quantify the workload and make it easy to gauge the overall impact of the program once in effect.

Phase II involves implementing a 110-hour renewable energy course into the educational system, originally an initiative by the Ministry of Education. The course will begin with an overview of renewable energy, focusing on two abundant natural resources of Cape Verde: wind and sun. Using the local assessment maps from Phase I, students will then perform feasibility studies based the natural conditions of each zone and calculate the appropriate amount/type of renewable energy systems to bring that zone to 100% renewable energy capacity.

After the general overview and feasibility courses, students will choose one of two tracks based on their prerequisite coursework: electricity or civil construction. A final course will be a simple entrepreneurship course that would teach students how to start small companies. This will teach students to take responsibilities for their work, learn how to make money and how to work together to achieve a national goal. Upon completion of the course, students will have the education necessary to install appropriate renewable energy systems and be dispatched around the country per the Ministry of Energy to help their country meet its goal within the proposed timeline.

A great part of the success of the program will rely on effective collaboration with Peace Corps Volunteers, the Ministry of Education, the Ministry of Energy and Industry, local municipal governments, ELECTRA (the nation’s sole energy company) and any other interested agencies.

The cost of the first phase of the program is still unknown. Most of the financing, however, will go toward purchasing renewable energy systems (RES) example materials for class and teacher salaries.

wind bw
wind bw

Justification

This strategy could work to eliminate Cape Verde’s dependency on costly imported fuels for several reasons:

• Cape Verde has ideal weather conditions. Cape Verde receives over 300 days of sunlight a year and has consistent high wind speeds throughout the country. These natural resources can be harvested and utilized through solar PV systems and wind turbines.
• The scale of the project is surmountable. 300 megawatts (MW) is the amount of energy of Cape Verde expects to consume by 2020, up from 95 MW in 2008.

o Note: To compare this to current world projects... the largest solar power plant in the world, located in California’s Mohave Desert, produces 354MW of solar power and covers 6.5km2. There are also plans to build plants double this size in Spain, Germany and China. The market has matured.

• Cape Verde needs to reduce energy loss through distribution networks. In 1996, ELECTRA reported to have lost 14% of energy through distribution networks. Building solar/wind units for specific zones will significantly reduce, if not eliminate, the amount of loss due to distribution networks.
• It is easier to train people on small-scale projects.
• It is easier to quantify the workload to reach 100% capacity if you have a clear map.
• It is easy to create sustainable jobs using this method. A trained workforce dispatched to specific locations will be cost-effective and keep renewable energy investments in the hands of the citizens of Cape Verde.

Presentation of Proposed Courses

We are proposing to introduce five courses totaling 110 hours that would effectively prepare students to work toward this initiative.

General courses
Unit 1: Introduction to Renewable Energy [30 hours over one month]
Unit 2: Feasibility Study [25 hours over one month]

Track courses
Unit 3: Installation and Maintenance for EE [50 hours over two months]
Unit 4: Installation and Maintenance for CC [30 hours over one month]

Public course
Unit 5: Entrepreneurship [25 hours over one month]


Objectives

This educational initiative will work on collaboration with the Ministry of Education to inform, educate and train Capeverdeans for the study, implementation and maintenance of renewable energy system technology. General course objectives, divided among two tracks, are as follows:

General Coursework

Unit 1: Introduction to Renewable Energy [30 hours over one month]
Prerequisites: High school degree or higher

• Description: A general overview of renewable energy.
• To include: Cape Verde’s dependency on oil, Cape Verde’s natural resources, potential RE systems that would work in CV, the cost/benefits of renewable energy investments and examining the potential or renewable energy
• Course objective: Drawing assessment maps for each island based on Electra energy data


Unit 2: Feasibility Study [25 hours over one month]
Preferred prerequisites: basic accounting courses, experience in EXCEL

• Description: A study of the abundant renewable energy resources in Cape Verde.
• To include: Students will learn how to perform wind speed tests and solar radiation analysis and write feasibility studies to justify investments in renewable energy.
• Course Objective: After visiting the site, prepare and submit a system estimate – how many panels/turbines for one particular zone(s) based on the assessment map.

Every student will take the first two units.


Tracks

Unit 3 and 4 are divided among students with electricity and civil construction prerequisite coursework.

Unit 3: Installation and Maintenance for EE [50 hours over two months]
Preferred prerequisites: Electricity courses

• Theoretical application to renewable energy system technology
• Methods of installation for solar panels, wind turbines and solar streetlights
• Troubleshooting maintenance problems

Unit 4: Installation and Maintenance for CC [30 hours over one month]
Preferred prerequisites: Civil Construction courses

• Site selection / preparation for solar panel and wind turbine blocks
• Laying the foundation
• Site security installation (fences)

Additional Course

Entrepreneurial course will be open to the general public, no prerequistites
Unit 5: Entrepreneurship [25 hours over one month]

• Legal procedure for registering a business (Casa de Cidadão)
• Submitting an estimate
• Business startup strategies
• Collaborating with government to achieve it’s goal

New coursework total duration [110 hours over six months]

Suggested Methodologies

Each course has a major project that students will complete by the end of the course. Class time will be used to complete each element of the project.

Course projects
Unit 1 – Assessment map
Unit 2 – Feasibility study of a practice zone/ site selection
Unit 3 – Installation of solar panels/wind turbines
Unit 4 – Site preparation/construction and security measures
Unit 5 – Create business plan, register business at Casa de Cidadão


Methods of Evaluation

The methods of evaluation for each course will be as follows:
Unit 1 – Assessment map

• Accuracy
• Creativity
• Level of visual appeal

Unit 2 – Feasibility study of one practice zone

• Accuracy
• Presentation

Unit 3 – Installation of solar panels/wind turbines

• Does it work?

Unit 4 – Site selection/preparation/construction/security evaluation

• Does it work? Is it safe?

Unit 5 – Create business plan, register business at Casa de Cidadão

• Do it to it.

Feedback for the program – how can it be improved, what could be done better?

Required tools

Anemometers – to measure wind speed, direction
How do you measure solar radiation?

Course Location

New courses will be implemented at the Businesses and Professional Training Centers located around the country. The courses will be given at each locations determined by the resources at each school.

Collaboration

With Peace Corps – for training, community assessment/involvement, With Local Government institutions – providing assistance to select project site’s, With ELECTRA – providing documentation of existing power access/outages, With other aid agencies – Lux/Spanish/Portuguese Cooperations, Bornefunden, US Embassy With other renewable energy companies - Victor (Assomada), BP Solar, Electro Aris, Cleanpwr Inc, other foreign companies

Necessary Resources

Information from Electra – electrical coverage of country (for assessment maps), consumption breakdown

Startup purchases of training materials -To include anemometers, panels, turbines

Teachers (What will be the education requisites for teachers?)
Students

Budget

1st year
To include initial training session materials and equipment Rent warehouse to stockpile system technology for distribution

2nd year
For expanded training session materials and equipment (among additional CFP institutions) Reassess warehouse stockpile

3rd year
Monitor program growth, grow accordingly – more emphasis on teaching/distribution

Financial plan

Ministry of Energy, Ministry of Education, Ministry of Employment (CFP backing institution)
Peacecorpsweb.org, 25-75% to be provided by local Cámara, local institutions, rest web solicitations
Web solicitations, prosper.com, for public investment. Expected interest rate on loan - 8%.

Resource Procurement

Once students have completed the coursework, Desol will work with any interested parties to procure the following RE system technology for national distribution:

• Wind Turbines (1kW-20kW)
• Solar Panels (120-200W)
• Solar Water Heaters (120-200W)
• Solar Street Lights

Existing renewable energy companies in Cape Verde

Conclusion

An informed, educated and trained citizenry is the foundation of any successful society. Utilizing the existing educational and political infrastructure of Cape Verde to empower its citizens through education and employment will be an economical, sustainable and effective solution at helping Cape Verde achieve its goals in a timely manner.

Bibliography

1New York City Energy Policy Task Force 2World Bank Project, Cape Verde: Energy and Water Sector Reform and Development

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