developing areas. Energy self-sufficiency has been defined as total primary energy production divided by total primary energy supply. Energy trade includes all commodities in Chapter 27 of the Harmonised System (HS). Capacity utilisation is calculated as annual generation divided by year-end capacity x 8,760h/year. Avoided
Hydropower has four major advantages: it is renewable, it produces negligible amounts of greenhouse gases, it is the least costly way of storing large amounts of energy, and it can easily adjust the amount of electrical energy produced to the amount demanded by consumers.
renewable energy resources available in Guyana, hydro will be important to provide firm capacity and short-term energy storage to compensate for daily and weekly fluctuations form solar and wind. Hydro will also provide, in the long-term, a cheaper solution than any other technology, due to its long lifespan.
Each solar PV mini-grid has a hybrid configuration comprising a ground-mounted solar PV array, hybrid inverter, battery energy storage system, and associated balance of system components. The electrical network interconnects the system to the public/community buildings via a 13.8 kilovolt (kV) medium voltage transmission, and a 120/240 volts
INTRODUCTION. This document presents Guyana''s Energy Report Card (ERC) for 2021. The ERC provides an overview of the energy sector performance in Guyana. The ERC also includes energy eficiency, technical assistance, workforce, training and capacity building information, subject to the availability of data. This ERC includes data and
In 2015, the German Government, through its German Agency for International Cooperation (GIZ) initiative, committed to assisting the GEA with the rehabilitation of the Hosororo Hydropower facility in Region 1. The US$165,175 project received US$91,108 in financing from the Government of Guyana and US$74,067 in financing from GIZ/REETA.
The resuscitated hydropower project featured a new design that was conceptualised by GEA''s Engineers and a GIZ consultant (Sven Homscheid). It entails the installation of a 20kW run-of-the-river type micro hydropower plant, comprising of a Weir/Intake structure, Penstock and Powerhouse. .
The construction of the micro hydropower plant was completed in 2018 and works related to interconnection with the Mabaruma electric grid is ongoing. The plant is expected to be commission in 2019.
The current concept of this project is to rehabilitate the defunct hydropower plant and increase the installed capacity to 0.7 MW. The site is located on the Moco-Moco Creek, which is a part of the Amazon River System originating from the north of Kanuku Ranges converging into the Takutu River.
The project will provide electricity from an indigenous and renewable energy source to serve the demand of Lethem and its environs. This project forms a complementary suite of planned energy initiatives in the town, consisting of a hydropower plant and a solar PV farm.
The proposed Kumu Hydropower Project entails the installation of a 1.5 MW hydropower plant and construction of a transmission line. The Kumu Creek, located in Region 9 (Upper Takutu-Upper Essequibo), is also part of the Amazon River System. The creek originates from the north of Kanuku Ranges converging into Takutu River which is a boundary river between Guyana and Brazil. Kumu site is situated 9.5 km from the Moco-Moco hydropower station. The catchment areas of Kumu and Moco-Moco adjoin each other. The Kumu power station site is located 13 km south-east of the town of Lethem.
The Kumu Hydropower Project will operate as a run-of-the-river type plant with an ultra-high head potential of more than 500 m. Its topographical specifications can accommodate the construction of a small reservoir on the top of the mountain plateau so as to maintain a constant water level for operation of the plant.
The project will provide electricity from an indigenous and renewable energy source to serve the demand of Lethem and its environs. Together with the Moco Moco Hydropower Station, the Kumu hydropower plant can be a strong, reliable and redundant power supplier and controller for existing and future demand. The combined operation of the Kumu and Moco Moco hydropower systems, together with the planned solar PV, can result in 100% of renewable energy generation in the power sector of Lethem.
The proposed Ikuribisi Hydropower Project entails the installation of a 1 MW hydropower plant and construction of a transmission line between the plant and the Bartica Power station. The site is situated about 45 km south of the town of Bartica in Region 7 (Cuyuni-Mazaruni).
The hydropower system will run as an energy storage hydropower plant with a reservoir, which can serve as a seasonal storage system. The project will provide electricity from an indigenous and renewable energy source to serve the demand of Bartica. Bartica is considered the gateway to the interior locations.
Bartica has been designated Guyana''s first Green Town. The Green Bartica Plan is a Government of Guyana initiative that involves a holistic approach to sustainable economic growth in the township. The main objectives of the plan are to create a climate resilient economy and to establish a green pathway for the foundation of a new Guyana, which will result in reducing the overall carbon footprint in electricity, agriculture, fisheries, water, forestry, waste, manufacturing, transport, construction, tourism and other sectors.
This project forms a complementary suite of energy initiatives to support the Green Bartica Plan. In addition to hydropower, a 1.5 MW solar farm is being developed to displace diesel generators. The hydropower plant will add additional capacity to the grid to meet the town''s growing demand which currently ranges from 2 MW to 3 MW.
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