Portable solar energy system powers rural development

August 8, 2018, CORDIS
Portable solar energy system powers rural development
Credit: Sitthipong Pangjan, Shutterstock

Photovoltaic energy is a clean, renewable and economical source of energy that can help reduce consumption of fossil fuels to mitigate global warming. It provides energy off-grid to remote communities with no electricity or as part of a hybrid energy generation system.

Most people without access to electricity live in regions with very good or excellent solar conditions but must pay a disproportionate amount of their income for energy. In Europe, rural, mountainous and remote regions make a significant contribution to the economy. These regions require a low carbon, cost-effective system to support smart grids capable of reducing the development gap between them and urban areas.

The Horizon 2020 SUNINBOX project has addressed these challenges and developed a standalone, easy-to-install, photovoltaic generator where all the equipment is configured in the factory ready for use as a portable 'plug and play' system. "All the component parts necessary for generating electricity, like electronic systems, battery packs and the solar tracker can be packed into a standard 20-ft shipping container for easy transportability," says project coordinator Sergio Hernández-Bazan.

Follow the sun

Currently, SUNINBOX possesses an inverter power capability of up to 90 Kilo-volt-amperes (kVA) to change direct current, DC, power from the lithium ferro-phosphate battery system into conventional mains alternating current, AC, for operating electric lights, electrical devices and so on. "The mixed configuration allows optimal management of the solar resource, both for direct consumption and storage," explains Hernández-Bazan.

Project partners employed a highly innovative telescopic solar tracker to orientate the solar panels towards the sun. According to Hernández-Bazan: "A geolocation system allows the tracker to position and deploy the entire photovoltaic field semi-automatically according to its location. This takes less than 10 minutes and the system is ready for use in less than 30 minutes."

A cheaper, cleaner alternative

Researchers developed SUNINBOX with two types of markets in mind. The first is rural areas in southern Europe with high levels of solar radiation and large numbers of farms employing irrigation. "With regards to irrigation, energy represents around 40 percent of total water costs, so water use, and energy costs cannot be considered independently. SUNINBOX therefore represents a realistic alternative for increasing energy use efficiency for irrigation," Hernández-Bazan claims.

The second market for the device is remote smart energy grids and rural electrification projects in Africa and Latin America. Here SUNINBOX's portable system can supply power to support local development in areas where is very high, but accessibility to the local electricity grid is difficult. To date, energy in such areas is obtained using diesel generators, but now SUNINBOX can lower the cost of energy while producing no carbon dioxide. "In Africa, the cost of with our system is EUR 0.3 /kWh compared to more than EUR 0.5 /kWh using diesel generators," points out Hernández-Bazan.

Multiple applications

The SUNINBOX system guarantees a continuous supply of electricity along with low operating and maintenance costs via a highly efficient portable PV system. The is 35-45 percent more efficient than its competitors, thanks to the solar tracker, which reduces payback period.

Hernández-Bazan concludes: "It is the best option for NGO projects, which need cost-effective, reliable equipment for refugee camps, areas hit by natural disasters, or anyone who has difficulty accessing an electricity grid and/or wants to reduce their carbon footprint." In addition, SUNINBOX will benefit installation companies, as well as companies in general dedicated to the photovoltaic sector.

Explore further: Single-system solar tech cuts clean energy costs in half

Related Stories

Standalone system to produce drinking water via solar energy

February 12, 2018

Researchers from the University of Alicante's research group in applied electrochemistry and electrocatalysis have developed a standalone system for desalinating and treating water through electrodialysis. The system is directly ...

Screening Africa's renewable energies potential

February 8, 2012

The European Commission's Joint Research Centre (JRC) has published today a study mapping the potential of renewable energy sources in Africa. The report analyses the current energy consumption in Africa and assesses potential ...

Alaskan microgrids offer energy resilience and independence

December 26, 2017

The electrical grid in the contiguous United States is a behemoth of interconnected systems. If one section fails or is sabotaged, millions of citizens could be without power. Remote villages in Alaska provide an example ...

Recommended for you

Can China keep it's climate promises?

March 26, 2019

China can easily meet its Paris climate pledge to peak its greenhouse gas emissions by 2030, but sourcing 20 percent of its energy needs from renewables and nuclear power by that date may be considerably harder, researchers ...

In the Tree of Life, youth has its advantages

March 26, 2019

It's a question that has captivated naturalists for centuries: Why have some groups of organisms enjoyed incredibly diversity—like fish, birds, insects—while others have contained only a few species—like humans.

Cellular microRNA detection with miRacles

March 26, 2019

MicroRNAs (miRNAs) are short noncoding regulatory RNAs that can repress gene expression post-transcriptionally and are therefore increasingly used as biomarkers of disease. Detecting miRNAs can be arduous and expensive as ...


Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.