Infinite Fingers GmbH & MFT
Remotely Controlled Off-Grid Water Desalination Plant Based on Reverse Osmosis
La Guajira, Colombia
Infinite Fingers GmbH offers cloud-based monitoring and control solutions for off grid power systems. We help off grid operators to keep systems up & running for their entire lifespan by offering a platform which can integrate technology from any manufacturer.
(Contact: Joan Tarrago)
Membran-Filtrations-Technik GmbH is a medium sized company based in Cologne, Germany with over 20 years experience in the design, building and operation/servicing of membrane-based water purification systems for fresh, drinking, salt, process and waste water.
(Contact: Oliver Kopsch)
The aim of this project is to establish a proven operating model for providing clean drinking water from sea water in under-developed regions powered using only renewable energies.
In order to do that, MFT Cologne and Infinite Fingers have led a project to develop and implement an innovative first pilot plant of a self-powered water desalination plant that is currently fully operational in a Colombian region called `La Guajira‘.
Even though La Guajira is on the coast in the northeast of Colombia, it is a very dry area, and the local residents, many of whom are indigenous, are poor and suffer from a lack of clean drinking water.
This pilot is the first of a number of systems that will be distributed throughout Colombia (and potentially in other countries too). It aims to show that an operating model can be established in which both the social and environmental impact of such projects is maximised, with a private and/or public finance model in place.
In February 2016, the German government agreed to 50% co-fund a € 400,000 research and development project though the KfW Bank to develop new stand-alone technology to desalinate sea water and produce clean drinking water.
MFT GmbH Cologne and Infinite Fingers GmbH developed a desalination system that produced up to 120 l drinking water per hour from any sea water source (up to 20 m depth water intake) based on reverse osmosis membranes.
The required electrical energy will be provided solely from renewable energy consisting of wind power and solar panels and lithium ion battery storage in order to have the capacity to operate 24/7.
The key feature is that this new technology can be 100% remotely controlled and monitored where all relevant parameters from both the energy system and the water plant are automatically uploaded into the “cloud”. From the cloud we can offer web-based or app-based data access to all interested parties and can even remotely access the system for upgrades and other active control features
The total cost including desalination unit, power supply, transport, installation and commissioning is estimated to be around € 120,000 per unit connected to our online operating system. This value also depends on the raw water quality to treat.
We welcome any partner wishing to expand this project by adding additional units for the benefit of the local population suffering from a lack of clean drinking water. Please contact us before the KfW funded project ends on 31 December 2017.
The ultimate benefit for consumers is to have clean drinking water with almost zero operating costs almost anywhere where only polluted water is available, as the energy source is renewable and unlimited. Consumers also have complete peace of mind that the system will continue to offer trouble-free long term operation, since an external service company will be providing preventive services.
This first pilot unit has been donated to a school in La Guajira in collaboration with a local partner in Colombia, ‘Colenergy’.
We trained local Colombian staff in Cologne and have also provided further training for maintaining and troubleshooting the system at the installation site. Although only low maintenance is needed, we want to ensure that the beneficiaries are ultimately autonomous and responsible for the long-term operation themselves.
The "RO 100 Sea" system is currently operational and supplying hundreds of school kids and their families with clean drinking water.
If the drinking water quality falls below a certain limit, the system switches off automatically to prevent unfit water from being supplied to consumers.
The goal is to operate and monitor a large number of decentralised, stand-alone and CO2 -free drinking water systems via a centralised, cloud-based platform, powered exclusively by renewable energy.
Many different applications of this pilot unit are possible. It will be possible to mix and match different raw water qualities (sweet/salt water) and different water output quantities. By adjusting power production and power usage, this system can easily be used for different purposes, such as water purification or micro water and energy grids that are fully accessible remotely.
As a proof of concept, the pilot unit has also implemented a business model based on bottled water sales to the community in gallons, which will provide the school with an additional income. This model could potentially underpin these types of systems, allowing for not only a long-term social and environmental impact, but also the potential for an economic return on investment, depending on the financiers and the project framework.