Factors influencing the adoption of biogas digesters in rural Ethiopia

[1]  Tiruwork Arega,et al.  Household willingness to pay for green electricity in urban and peri-urban Tigray, northern Ethiopia: Determinants and welfare effects , 2017 .

[2]  Linda M. Kamp,et al.  Ethiopia's emerging domestic biogas sector: Current status, bottlenecks and drivers , 2016 .

[3]  A. Kuhe,et al.  Urban household cooking energy choice: an example of Bauchi metropolis, Nigeria , 2016 .

[4]  Joshua Sunday Riti,et al.  Renewable energy, energy efficiency, and eco-friendly environment (R-E5) in Nigeria , 2016 .

[5]  M. G. Mengistu,et al.  A review on biogas technology and its contributions to sustainable rural livelihood in Ethiopia , 2015 .

[6]  Cristina Trois,et al.  The potential of cassava biomass and applicable technologies for sustainable biogas production in South Africa: A review , 2014 .

[7]  B. Balana,et al.  Socio-economic hurdles to widespread adoption of small-scale biogas digesters in Sub-Saharan Africa: A review , 2014 .

[8]  Alemayehu Gashaw Anaerobic co-digestion of biodegradable municipal solid waste with human excreta for biogas production: A review , 2014 .

[9]  L. J. S. Baiyegunhi,et al.  Rural household fuel energy transition: Evidence from Giwa LGA Kaduna State, Nigeria , 2014 .

[10]  R. Hassan,et al.  Analysis of determinants of farm-level adaptation measures to climate change in Southern Africa , 2014 .

[11]  Céline Nauges,et al.  Households' pro-environmental habits and investments in water and energy consumption: determinants and relationships. , 2014, Journal of environmental management.

[12]  Shikun Cheng,et al.  A review of prefabricated biogas digesters in China , 2013 .

[13]  Siegfried Bauer,et al.  Factors determinant of biogas adoption in Bangladesh , 2013 .

[14]  Cyimana Mulinda,et al.  Dissemination and Problems of African Biogas Technology , 2013 .

[15]  N. Tippayawong,et al.  Overview of livestock biogas technology development and implementation in Thailand , 2013 .

[16]  Roy Brouwer,et al.  The energy ladder: Theoretical myth or empirical truth? Results from a meta-analysis , 2013 .

[17]  Prakash C. Ghimire,et al.  SNV supported domestic biogas programmes in Asia and Africa. , 2013 .

[18]  B. Erasmus,et al.  Double jeopardy: The dichotomy of fuelwood use in rural South Africa , 2013 .

[19]  C. Keske Anaerobic Digestion Technology: How Agricultural Producers and the Environment Might Profit from Nuisance Lawsuits , 2012 .

[20]  E. Amankwah Integration of Biogas Technology into Farming System of the three Northern Regions of Ghana , 2011 .

[21]  Richard Arthur,et al.  Biogas as a potential renewable energy source: A Ghanaian case study , 2011 .

[22]  A. Harmse Node selection for the Integrated Sustainable Rural Development Programme in South Africa , 2010 .

[23]  Tasneem Abbasi,et al.  Biomass energy and the environmental impacts associated with its production and utilization , 2010 .

[24]  A. Bohara,et al.  Biogas: A promising renewable technology and its impact on rural households in Nepal , 2009 .

[25]  J. Mugisha,et al.  Biogas energy from family-sized digesters in Uganda: Critical factors and policy implications , 2009 .

[26]  Tewodros Tadesse,et al.  Environmental concern and its implication to household waste separation and disposal: evidence from Mekelle, Ethiopia. , 2009 .

[27]  W. Parawira,et al.  Biogas technology research in selected sub-Saharan African countries – A review , 2009 .

[28]  C. Salvioni,et al.  Do Caring Services Affect Off-Farm Work? Evidence from Italy , 2008 .

[29]  Shreekant Gupta,et al.  Poverty and resource dependence in rural India , 2008 .

[30]  Minna J. Hsu,et al.  Biogas Plants Ease Ecological Stress in India’s Remote Villages , 2008 .

[31]  Fiona Zuzarte,et al.  Market Barriers to Clean Cooking Fuels in Sub-Saharan Africa: A Review of Literature , 2008 .

[32]  H. von Blottnitz,et al.  Commercialisation of biofuel industry in Africa: A review , 2008 .

[33]  C. Shackleton,et al.  Changes in fuelwood use and selection following electrification in the Bushbuckridge lowveld, South Africa. , 2007, Journal of environmental management.

[34]  E. Veldkamp,et al.  Effectiveness of exclosures to restore degraded soils as a result of overgrazing in Tigray, Ethiopia , 2007 .

[35]  B. Ouedraogo,et al.  Household energy preferences for cooking in urban Ouagadougou, Burkina Faso , 2006 .

[36]  Gunnar Köhlin,et al.  Woodfuels, livelihoods, and policy interventions: changing perspectives , 2006 .

[37]  J. Martins The Impact of the Use of Energy Sources on the Quality of Life of Poor Communities , 2005 .

[38]  B. Campbell,et al.  The energy transition in action: urban domestic fuel choices in a changing Zimbabwe , 2003 .

[39]  Bereket Kebede,et al.  Can the urban poor afford modern energy? The case of Ethiopia , 2002 .

[40]  Daniel M. Kammen,et al.  From Linear Fuel Switching to Multiple Cooking Strategies: A Critique and Alternative to the Energy Ladder Model , 2000 .

[41]  R. Heltberg,et al.  Fuelwood consumption and forest degradation: a household model for domestic energy substitution in rural India. , 2000 .

[42]  Douglas F. Barnes,et al.  Rural Energy in Developing Countries: A Challenge for Economic Development , 1996 .

[43]  R. Hosier,et al.  Household fuel choice in Zimbabwe: An empirical test of the energy ladder hypothesis , 1987 .