For communities perilously living in flood prone areas, access to basic resources and opportunities is a perpetual challenge. River islands especially lack basic infrastructure and services such as healthcare, education, power, drinking water and sanitation. People risk the weather and flooding rivers, and make long journeys in difficult terrains to get basic health services such as vaccination, mother and child care, medicines, minor operations, etc. Medical emergencies can be particularly harrowing. Same challenges are prevalent across the sundarbans in Bangladesh, coastal areas of Rakhine in Myanmar, the lakes of Cambodia, and many other areas.
Mobile boat clinics developed as a response to this need. For example, a vast network of shifting islands characterizes the River Brahmaputra, in its 891 kilometer course through Assam in North East India. To provide basic health services to these communities, the Centre for North East Studies and Policy Research (C-NES) designed and built boat clinics, which have reached over 1.5 million people since 2005.
Solar-powered boat clinic on river Bramhaputra operated by C-NES in Jorhat, Assam. This project was supported by GIZ and Good Energies Foundation. (Photo credit: SELCO Foundation)
Bridging the energy gap
With the length of trips varying from a single day to several days, one of the biggest challenges that these clinics face is access to energy for powering basic health and communication equipment. Typically all these loads are powered by a diesel generator, the use of which is limited by the amount of diesel that can be stored on the boat, resulting in the services being terminated early every day. Diesel is also difficult to procure on the islands, and the intense noise from the generator makes it difficult to work on the boat.
In April 2017, with technical support from SELCO Foundation and Envo Business Solutions Pvt Ltd, the first solar powered boat clinic in the North-East was commissioned in Jorhat district of Assam. All the equipments on the boat that used to run on diesel now run on solar, which means the boat itself has more diesel available to be able to stay on the river longer. In the evening, the services stay open till all patients are treated (especially for emergencies), and the staff have more time to complete their work. The boat now has a solar-powered vaccine refrigerator, making it possible to also start storing vaccines, medicines and lab reagents, which otherwise had to be stored in ice boxes for a limited time.
Challenges and Opportunities
Retrofitting a boat with solar has certain challenges. Panels and batteries add over 500 kg, which needs to be balanced across the span — this is a worry for smaller boats than for larger ones. A waterproof space needs to be designed for batteries, panel mounting structures preferably made from aluminium to prevent rusting, and sturdy enough to withstand high wind speeds. To reduce the size of the solar system, every watt makes a difference — low energy, high efficiency portable medical equipment need to be developed for these contexts.
The idea of boat clinics challenge conventional healthcare delivery models, which rely on a network of stationary primary health centers to which people have to travel from far off places. A boat clinic takes healthcare to the doorstep of the people. Appropriately designed efficient health technologies could further enhance such doorstep services.
These concepts find relevance in many other sectors. Take for example the solar-powered floating schools of Bangladesh. Fishermen venturing out into the sea for extended periods of time, vendors in floating markets, rescue boats in rough seas all face similar challenges around access to energy. There is immense opportunity for energy enterprises to design solutions for these situations, and more partnerships are needed to institutionalize the learnings from these experiments.
Vivek Shastry works with the Policy and Planning Group at SELCO Foundation. He focuses on energy planning, ecosystem development, and energy-healthcare nexus.