Risks and Benefits with International Technology Transfer from Brazil to Angola

Autores

  • Rafael Vaisman Centre for Innovation, Research and Competence in the Learning Economy (CIRCLE), Lund University, Sweden.

DOI:

https://doi.org/10.21664/2238-8869.2013v2i2.p89-104

Resumo

Thanks to the transfer of technology from Brazil, Angola is entering the sucroalcooleiro sector with multiple aims. These include creating jobs in rural areas, diversifying the energy mix and boosting exports. Angola is one of the countries that has envisioned international technology transfer as a strategy to increase participation in the global market, while decreasing its dependence on sugar imports. While the production of ethanol and sugar can bring about some benefits, technology transfer in this area is not without risks. It needs to be carefully crafted and executed, especially in accordance with the principles of sustainable development, which is by the government plan of Angola to include, rather than exclude, the rural poor. This study shows that stakeholders presented different opinions in relation to Biocom and sustainable development. The main reason is linked to the distinction between global, national and local levels. On the global level, ITT and Biocom are seen as alternative renewable sources of energy (ethanol) to fossil fuels, on the local level there is a concern with the socio-environmental issues which local communities might face, indeed ITT and Biocom are perceived as a risk in case locals  lose their lands and do not receive compensation. On the national level, while there is the expectancy of employment, infrastructure development and attraction of investments in the country, there is a lack of trust in governance by Angolan civil society; which argues that Angolan government and enterprises do not encourage public participation nor allows it to happen. Technology transfer is perceived as a business and geopolitical strategy driven by private and state interests, undermining environmental and social costs. On the other hand technology transfer is seen as a key to foster economic opportunities towards sustainable development.

Biografia do Autor

Rafael Vaisman, Centre for Innovation, Research and Competence in the Learning Economy (CIRCLE), Lund University, Sweden.

Master graduated from the Centre for Innovation, Research and Competence in the Learning Economy (CIRCLE), Lund University, Sweden.

Referências

Blottnitz,H., Curran,M.A. (2006), A Review of assessment conducted on bioethanol as a transportation fuel from a net energy, greenhouse gas, and environmental life cycle perspective. Journal of Cleaner Production 15, p.607-619.
Rosenberg N. (1982), Inside the Black Box: Technology and Economics. New York: Cambridge Univ. Press
Grossman, G.M., Helpman, E. (1991), "Trade, knowledge spillovers and growth", European Economic Review, 35 : 517-526.
Hooda, N., Rawat V.R.S., (2005), Role of Bio-energy plantations for carbon dioxide mitigation with special reference to India, in 4, pp.437-471
Howen, Nicholas (2001). Peace-Building and Civil Society in Angola.
London: Department for International Development.
IAASTD. International assessment of agricultural knowledge, science and
technology for development ( 2009). Agriculture as Crossroads Borders. global report
Maskkus, K, E. (2004), “Encouraging International Technology Transfer,”
International Center for Trade and Sustainable Development (ICTSD), United
Nation Conference on Trade and Development (UNCTAD), paper No 7, April.
OECD. Organization for Economic Co-Operation and Development (1981), North –South Technology Transfer The Adjustments Ahead. Paris
Rosenberg N. (1982), Inside the Black Box: Technology and Economics. New York: Cambridge Univ. Press
Chakauya, E., Beyene, G., Chikwamba, R.K. (2009), Food production needs fuel too: perspectives on the impact of biofuels in southern Africa. South African Journal of Science 105, pg 174-181
OECD-FAO (2007), Agricultural Outlook 2007-2016. Organisation for Economic Cooperation and Development and the Food and Agriculture Organization of the United Nations, Paris and Rome.
Ojima, D., Field, C., Leadley, P., Sala, E.O., Messem, D., Petersen, E.J., Born, J., Vanwey, L., Wright.M. ( 2008). Mitigation Strategies: Biofuel Development Considerations to Minimize Impacts on the Socio-Environmental System [pp. 293-308]. Biofuels: Environmental Consequences and Interactions with Changing Land Use. Retrieved from http://cip.cornell.edu/scope/1245782017. Accessed in February 22-2010
UN. (1992), Framework Convention on Climate Change. Geneva: UNEP/WMO Info. Unit Climate. Change.
Liggins, G., Robinson, R. (2005), Plan for technology Transfer. IEEE. Available at : Engineering Management Conference, 2005. Proceedings. 2005 IEEE International. Vol 1. pp. 63-67
Bessant, John., Rush, Howard. (1993), Government support of manufacturing innovation: two country level case study. IEEE Transactions of Engineering Management, v.40, n.1, p. 79-91
Rosenberg N, Frischtak C, eds. (1985), International Technology Transfer: Concepts, Measures and Comparisons. New York: Praeger
Schmidheiny S, with Bus. Counc. Sustain. Dev. (1992), Changing Course: A Global Business Perspective on Development and the Environment. Cambridge, MA: MIT Press
Rashed M. Al-Thawwad. (2008), Technology Transfer and Sustainability - Adapting Factors: Culture, Physical Environment, and Geographical Location. Paper 152, Session IT 305
Martinot E,. Sinton E., Haddad M.( 1997). International Technology Transfer for Climate Change Mitigation and the cases of Russia and China. Annu. Rev. Energy Environ. 22: 357- 401
McIntyre, J., and Papp, D. (1986), The Political Economy of International
Technology Transfer. Westport, CT: Quorum Books.
Zacchea, M. (1991). “Selecting a Cadre Is Essential to Technology Transfer
Planning,” Performance & Instructional Journal, 30 (1): 13–20
Maskkus, K, E. (2004), “Encouraging International Technology Transfer,”
International Center for Trade and Sustainable Development (ICTSD), United
Nation Conference on Trade and Development (UNCTAD), paper No 7, April.
Vanwey, L. (2008). Social and distributional impacts of biofuel production [pp. 205-214]. Biofuels: Environmental Consequences and Interactions with Changing Land Use. Retrieved from http://cip.cornell.edu/scope/1245782012. Accessed on February 25-2010
Kim L. ( 1997). From innovation to imitation: The dynamics of Korea’s Technological Learning, Boston, MA: Harvard Business School Press
Muchi M., Gammeltoft P, and Lundvall B.A ( 2003). Putting Africa First: The Making of African Innovation Systems. Aalborg, Denmark: Aalborg University Press.
Mangoyana, Robert Blessing. (2009), Bioenergy for sustainable development: An African context. Physics and Chemistry of the Earth 34, 59-64
Blottnitz,H., Curran,M.A. (2006), A Review of assessment conducted on bioethanol as a transportation fuel from a net energy, greenhouse gas, and environmental life cycle perspective. Journal of Cleaner Production 15, p.607-619

Publicado

2013-12-20

Como Citar

VAISMAN, Rafael. Risks and Benefits with International Technology Transfer from Brazil to Angola. Fronteira: Journal of Social, Technological and Environmental Science, [S. l.], v. 2, n. 2, p. 89–104, 2013. DOI: 10.21664/2238-8869.2013v2i2.p89-104. Disponível em: https://revistas2.unievangelica.edu.br/index.php/fronteiras/article/view/751. Acesso em: 21 nov. 2024.