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MINISTRY OF LANDS, SURVEY AND NATURAL RESOURCES & ENVIRONMENT

[ENERGY PLANNING UNIT] 

NATIONAL RENEWABLE ENERGY POLICY

Prepared By     : Energy Planning Unit

Adopted By      : His Majesty’s Cabinet on its CD 222 Dated 24 March 2006

RENEWABLE ENERGY POLICY FRAMEWORK – KINDOM OF TONGA

Vision Statement

“that by the year 2015, the Kingdom of Tonga achieves an optimal socio- economic structure achieved by sustainable energy development.”

Goal

“the provision of sufficient, socially, financially, economically, technically, politically and environmentally sustainable renewable energy systems”

1.0          INSTUTIONAL POLICY STATEMENT

1.1          Ensure that the Energy Planning Division (EPU) of the Ministry of Lands, Survey and Natural Resources (MLSNR) has the capacity to plan, develop and manage renewable energy projects/programmes.

Strategies:

1.1.1              Provide the EPU with appropriate number of professional and support staff.

1.1.2              Identify a viable source of funds within the MLSNR or elsewhere for the purpose of financing office space, equipment and similar expenses in support of renewable energy programme development.

1.1.3              Empower the MLSNR with the responsibility of regulating the renewable energy industry in Tonga except for electricity  produced from renewable energy sources which will be regulated under the provisions of the Tonga Electric Power Board Act.

Work Plans

1.1.1.1                  Carry out a review of the EPU including staffing and functions.

1.1.1.2                  Recruit additional professional and support staff. 

1.1.1.3                  Provide    training   on    the    design,    installation,   repair    and maintenance of renewable energy systems 

1.1.2.1                  Submit budgetary request to the Ministry of Finance.

1.1.2.2                  Request additional funds from potential donors.

1.1.3.1       Develop appropriate regulations for renewable energy systems in the Kingdom of Tonga. 

1.1.3.2       Establish    an    integrated    technical   advisory    and    support committee on renewable energy development.

2.0          RENEWABLE ENERGY  POLICY STATEMENTS

2.1          To ensure that appropriate provisions regulating renewable energy are provided for, in a legislative framework.

2.2          To promote and encourage the use of proven, appropriate and affordable renewable energy technologies in Tonga based on a systematic approach.

2.3          To develop partnerships with potential foreign and local investors, donors and agencies in seeking funding sources and technical assistance for the development of renewable energy programmes in Tonga.

2.4          To encourage inter-governmental, statutory bodies, non-governmental, donors, financial institutions, beneficiaries and private sectors cooperation in renewable energy programmes.

Strategies:

2.1.1   The MLSNR shall act according to the law from time to time in force.

2.2.1              Promote and encourage the importation of renewable energy technologies which meet a minimum equipment specification and safety standard applicable to the Tongan condition.

2.2.2              Promote a national standard for installation and maintenance of renewable energy projects.

2.2.3              Build the capacity in Tonga to carry out assembling, installing, repairing, maintaining and testing of renewable energy equipment.

2.2.4              Include renewable energy in primary and secondary schools curriculum.

2.2.5              Promote community awareness in renewable energy technologies.

2.3.1  Build development partner interest in renewable energy programmes.

2.4.1              Encourage sharing of information amongst all stakeholders

2.4.2              Encourage community involvement in renewable energy development.

Work Plans

Solar Energy

1. Formulate a minimum quality and safety standard for solar energy equipment.
2. Formulate a national standard for installation and maintenance of solar energy systems.
3. Provide training on the design, installation, repair, maintenance and management of solar energy systems.
4. Establish a solar energy database.
5. Develop a project proposal for the installation of XXXX solar energy home systems.
6. Install XXXX renewable energy home systems in the outer islands by 200X.
7. Seek technical assistance for renewable energy programmes from potential donors.
8. Establish an incorporated solar energy committee for each island district.
9. Provide public education and training on solar energy programmes.
10. Organise industrial shows related to solar energy technologies.
11. Identify renewable energy systems to meet the needs of different communities.
12. Develop a plan for solar energy programme.

Wind Energy

1. Provide training on wind energy assessment to EPU staff.
2. Establish a wind energy database.
3. Conduct wind energy assessment in potential locations throughout the Kingdom of Tonga.
4. Provide relevant information and data to potential investors.
5. Involve the EPU staff in the preparation, designing and installation and maintenance of wind energy systems.
6. Seek technical assistance for development of wind energy project.
7. Provide public education and awareness, advice and training on wind energy programmes.
8. Organise industrial shows related to wind energy technologies.
9. Develop a plan for wind energy programme.

Biomass Energy

1. Write a project proposal for funding and technical assistance for biomass resource assessment in the Kingdom of Tonga: e.g. coconut husks, rubbish, etc.
2. Provide training in the area of biomass resource assessment to EPU staff.
3. Seek funding for a biogas demonstration project in cooperation with the Tongan Waste Management Project.
4. Provide public education and awareness, advice and training on biomass energy programmes.
5. Organise industrial shows related to biomass energy technologies.
6. Develop a plan for biomass energy programme.

Geothermal Energy

1.         Write  a  project  proposal  for  funding  and  technical    assistance  for geothermal resource assessment in the Kingdom of Tonga.

Wave Energy

1. Write a project proposal for funding and technical assistance for wave resource assessment in the Kingdom of Tonga including, tidal and Ocean Thermal Energy.

Photographs:

 [...]

Solar Energy

Energy from the Sun…

On 2004 Agricultural Show in Vava’u, King Tupou IV very interested on Solar Energy demonstrated by EPU.

Energy  Planner  Mr.Tevita  Tukunga  explain  Solar        Energy  to  her  Royal  Highness  in  ‘Eua  2004

Agricultural show.

Installation of PV Systems in the Outer Islands…

One of households electrified by Solar Energy in Fotuha’a Island, Ha’apai

Wind Energy

North America Wind Power Plant

Biomass Energy

The term "biomass" refers to any form of plant or animal tissue. In the energy industry, biomass refers to wood, straw, biological waste products such as manure, and other natural materials that contain stored energy. The energy stored in biomass can be released by burning the material directly, or by feeding it to micro-organisms that use it to make biogas, a form of natural gas. Energy from biomass is still used around the world, for everything from cooking and heating to generating electricity 

This generating station in Canada, burns biomass fuel from nearby sawmills produce energy. 

Biogas can be made using plant and animal wastes. 

Biogas can be captured from landfill waste.

Geothermal Energy

GEOTHERMAL POWER PLANT: 

This geothermal power plant in Nevada has a capacity of 12 megawatts. Credit: Joel Renner, INEEL

Wave Energy

WAVE ENERGY POWER PLANT:  

A company called Wavegen now operate a commercial wave power station called "Limpet" on the Scottish island of Islay,

The Limpet unit on Islay has an inclined oscillating water column (OWC) that couples with the surge- dominated wave field adjacent to the shore. The water depth at the entrance to the OWC is typically seven metres.

The design of the air chamber is important to maximise the capture of wave energy and conversion to pneumatic power.

The turbines are carefully matched to the air chamber to maximise power output.

The performance has been optimised for annual average wave intensities of between 15 and 25kW/m. The water column feeds a pair of counter-rotating turbines, each of which drives a 250kW generator, giving a nameplate rating of 500kW.