Gender and innovation for climate-smart agriculture. Assessment of gender-responsiveness of RAN's agricultural-focused innovations

Ownership of agricultural production resources has generally been shown by research to be male dominated and to have wide disparities between males and females. The disparities are more pronounced in rural areas where women have less income, smaller pieces of land, and have inadequate market for their produce. In dealing with Climate Smart Agriculture (CSA) adoption and with agricultural technology adoption, there has been increasing recognition of the importance of focusing on the gender-based needs behind the adoption choice itself. Grounded in the belief that solutions to Africa’s resilience challenges lie in understanding what makes communities thrive in adversity, ResilientAfrica Network (RAN) is a multidisciplinary innovation lab that leverages the creativity and talent of youth, students, scholars and communities to develop and scale innovative ideas. Given how dominant agriculture is among RAN's problem sets for strengthening resilience through innovation, RAN sought to understand how supported innovations had contributed to gender-responsive climate smart agriculture solutions. What lessons could be learned from Women of Uganda Network (WOUGNET) in their history of engagement with women farmers to co-create a gender-responsive innovation process to strengthen resilience through the agricultural sector? With the support of CCAFS, RAN and WOUGNET conducted a gender assessment exercise to evaluate if the current solutions/innovations are gender responsive or not. Three innovations were selected that are primarily focused towards CSA and that had affordability and ease of use as key objectives. The gender assessment embraced a qualitative research approach. This choice was guided by the need to appreciate respondents’ understanding and experiences or perceptions of the different innovations that RAN has been nurturing and developing over the years. The respondents were purposively selected based on availability and on being located in any of the four Northern Uganda districts of Apac, Kole, Lira and Oyam where WOUGNET has actively engaged with women farmers. From the study, it was clear that men and women farmers are willing to embrace new technologies, practices and innovations in their pursuit of enhanced agricultural productivity and new opportunities. That said, a clearly gendered view emerged from the assessment in that uptake of the innovations was to a large extent driven by socio-cultural norms and expectations related to issues of ownership, work, decision making capacity, and income generation and control. For instance, use of the innovations can reduce time spent on farming activities and can open up time and space to explore new opportunities. However, if gender considerations are not taken into account, such time could be used to negatively impact on the work burden for women farmers as it may be taken that the women are now free to take on new work – even that which would have been previously done by the men in their households

Supplementary information for Decarbonisation of heat: Analysis of the potential of low temperature waste heat in UK industries

Supplementary files for article Decarbonisation of heat: Analysis of the potential of low temperature waste heat in UK industries The UK will need to decarbonise low temperature industrial waste heat (up to ≈250 °C) to achieve net-zero greenhouse gas emission targets. Industrial waste heat production represents an opportunity for reduction in the use of primary fuels used in the production of commodities. Energy inefficient processes in addition to increased emissions raises the cost of plant operation, – an undesirable scenario for both industrial competitiveness and the environment. Less is known about the quantity and potential applications for recovered low temperature industrial waste heat in UK and the quantification and characterisation of the resource can provide the needed impetus for the development and adoption of green technologies to help achieve the 2050 Net-Zero target. In this work the potential magnitude of the low temperature industrial waste heat resource in the UK is analysed by using sector-level energy intensity values for different industries while drawing on corresponding estimates from previous studies in the USA and by closely mapping the UK Standard Industrial Classification (SIC 2007) against sectors in the USA (NAICS [North American Industry Classification System]). The assessment undertaken finds that the recoverable potential of low temperature waste heat up to ≈250 °C could be up to 83.7% of the total estimated waste heat potential in UK industry. Significant opportunities exist in this low temperature range for waste heat recovery actions at individual sites. Research and Development (R&D) into alternative improved methods for waste heat recovery, storage, and use (WHRSU) technologies could also produce significant positive environmental and industrial impact. </p

Decarbonisation of heat: Analysis of the potential of low temperature waste heat in UK industries

The UK will need to decarbonise low temperature industrial waste heat (up to ≈250 °C) to achieve net-zero greenhouse gas emission targets. Industrial waste heat production represents an opportunity for reduction in the use of primary fuels used in the production of commodities. Energy inefficient processes in addition to increased emissions raises the cost of plant operation, – an undesirable scenario for both industrial competitiveness and the environment. Less is known about the quantity and potential applications for recovered low temperature industrial waste heat in UK and the quantification and characterisation of the resource can provide the needed impetus for the development and adoption of green technologies to help achieve the 2050 Net-Zero target. In this work the potential magnitude of the low temperature industrial waste heat resource in the UK is analysed by using sector-level energy intensity values for different industries while drawing on corresponding estimates from previous studies in the USA and by closely mapping the UK Standard Industrial Classification (SIC 2007) against sectors in the USA (NAICS [North American Industry Classification System]). The assessment undertaken finds that the recoverable potential of low temperature waste heat up to ≈250 °C could be up to 83.7% of the total estimated waste heat potential in UK industry. Significant opportunities exist in this low temperature range for waste heat recovery actions at individual sites. Research and Development (R&D) into alternative improved methods for waste heat recovery, storage, and use (WHRSU) technologies could also produce significant positive environmental and industrial impact