The Technology Applicability Framework (TAF) is a tool to assess the applicability of a WASH technology in a particular context and its potential to be adopted on a large scale. Under the WASHTech project, the TAF has been tested in Burkina Faso, Ghana, and Uganda on 13 different WASH technologies including the ventilated improved pit latrine, urine diverting dry toilet, rope pump, India Mark 2 Handpump, and solar powered pumps for small piped schemes or sand dams. Since then, it has been successfully applied outside the WASHTech project in Tanzania and in Nicaragua, even without any direct training. Potential users have also expressed an interest to adapt and apply the TAF to other technologies such as water point mapping tools.
WASHTech has produced a short video explaining what the TAF is and how it works. Using the example of a solar powered pump in Ghana, the animated video summarizes how the TAF captures the issues around sustainable service provision. It also features interviews with users of the TAF (such as local government officials) who offer perspectives on the added value that the framework provides.
But what are the next steps if a technology has passed the TAF testing and if you want to introduce the WASH technology for services on a larger scale? To support actors in the WASH sector in planning and management of the introduction of a WASH technology, the WASHTech project has developed a generic guide for technology introduction, the Technology Introduction Process (TIP). The TIP — as with the TAF — follows the spirit of the African saying: “If you want to go fast, go alone. If you want to go far, go together.”
For too long, efforts to introduce WASH technologies have been led by a few actors, mostly national governments and development partners, or a few isolated innovators. This often happened without proper involvement of other actors, such as the users, local political leaders, or the private sector. Increasingly, approaches such as Self Supply or Community-Led Total Sanitation are being promoted. These put more focus on user investments and the capacity of the local private sector to supply products and provide services. However, due to the limited financial capacities of households, some WASH technologies and services will still be subsidized.
The TIP guide supports the WASH sector in developing a specific process to introduce a WASH technology. At the core of the TIP, the tasks of key actors involved are defined for three phases of the introduction process:
- the invention phase, which includes the development and testing of the technology and the preparation for the launch;
- the tipping point phase; and
- the uptake and use phase.
For each of the phases, the TIP provides a generic set of tasks that should be carried out by specific actors. During the testing, the TAF can be used to develop the introduction process further and to monitor the technology and its performance.
In all three WASHTech pilot countries, government institutions have used the TIP to develop country specific guidelines for technology introduction. To aid this process, we’ve provided the generic TIP matrix, as well as examples of specific matrices that have been developed for two different cost models — the market based approach (e.g. for Self Supply) and for a model where capital investments are subsidized. All relevant actors have been involved in developing the specific guidelines. The guidelines reflect the country specific policies on WASH service provision, subsidies, and decentralisation.
Our online resource base provides access to all documents on TAF, TIP and reports on results such as technology briefs. All documents are in the public domain. TAF and TIP users are invited to upload their case studies and to share their experiences on the user interface. For more information please contact me at email@example.com.
The TAF and TIP were developed under the WASHTech project. The WASHTech consortium comprises: Skat Foundation – Switzerland; IRC International Water & Sanitation Centre – Netherlands; WaterAid – UK, Ghana, Burkina Faso and Uganda; Cranfield University – UK; Water and Sanitation for Africa (WSA) – Burkina Faso; Network for Water and Sanitation (NETWAS) – Uganda; Training, Research and Networking for Development (TREND) – Ghana; Kwame Nkrumah University of Science and Technology (KNUST) – Ghana.