TY - UNPB
T1 - Designing a sustainable business model for automated solar-PV drip irrigation for smallholders in Ghana
AU - Bolwig, Simon
AU - Baidoo, Isaac
AU - Danso, Eric Oppong
AU - Rosati, Francesco
AU - Ninson, Daniel
AU - Hornum, Sebastian Toft
AU - Sarpong, Daniel Bruce
PY - 2020
Y1 - 2020
N2 - Sustainable business model (SBM) research and practice has grown rapidly in the last two decades, not only showing the traits of an emerging research field, but also having an impact on business practices and government policies. Despite the wide-ranging academic and practical debates on SBMs, the academic literature still needs approaches specifically tailored to support the design of SBMs in developing countries, taking into account their characteristics, opportunities, and challenges. Our working paper aims to address these gaps in research and practice by proposing a framework supporting SBM design in developing countries. The SBM framework is composed of three main parts, i.e., value creation and delivery, value capture, and value proposition, and allows for an assessment of financial, economic, social, and environmental costs and benefits. It was applied to the case of small-scale irrigation in sub-Saharan Africa, specifically to a low-cost, automated solar-powered drip-irrigation technology, the ASPDI system, which was developed for small-scale vegetable farming in Ghana by an international research and innovation project. This research enabled a comprehensive ex-ante sustainability evaluation of the APSDI system and its associated business model in respect of its provision, covering the perspectives of technology providers, farmers, and society. The results of the evaluation highlight important issues related to the development, market diffusion, and farmer adoption of new small-scale irrigation technologies.
AB - Sustainable business model (SBM) research and practice has grown rapidly in the last two decades, not only showing the traits of an emerging research field, but also having an impact on business practices and government policies. Despite the wide-ranging academic and practical debates on SBMs, the academic literature still needs approaches specifically tailored to support the design of SBMs in developing countries, taking into account their characteristics, opportunities, and challenges. Our working paper aims to address these gaps in research and practice by proposing a framework supporting SBM design in developing countries. The SBM framework is composed of three main parts, i.e., value creation and delivery, value capture, and value proposition, and allows for an assessment of financial, economic, social, and environmental costs and benefits. It was applied to the case of small-scale irrigation in sub-Saharan Africa, specifically to a low-cost, automated solar-powered drip-irrigation technology, the ASPDI system, which was developed for small-scale vegetable farming in Ghana by an international research and innovation project. This research enabled a comprehensive ex-ante sustainability evaluation of the APSDI system and its associated business model in respect of its provision, covering the perspectives of technology providers, farmers, and society. The results of the evaluation highlight important issues related to the development, market diffusion, and farmer adoption of new small-scale irrigation technologies.
M3 - Working paper
T3 - Working paper series 2020
BT - Designing a sustainable business model for automated solar-PV drip irrigation for smallholders in Ghana
PB - UNEP DTU Partnership
ER -