Cogeneration; CHP; energy conversion; photovoltaic; PV; Power Generation; Solar energy; CSP; Diesel Engine
Abstract :
[en] This paper examines technical and economic choices for rural electrification in Africa and presents the rationale for trigeneration (capability for electricity, heating, and cooling) in health and education applications. An archetypal load profile for a rural health clinic (25 kWhe/day and 118–139 kWht) is described, and a regional analysis is performed for sub-Saharan Africa by aggregating NASA meteorological data (insolation, temperature, and heating and cooling degree-days) using correlates to latitude. As a baseline for comparison, the technical, economic (using discounted cash flow) and environmental aspects of traditional electrification approaches, namely photovoltaic (PV) systems and diesel generators, are quantified, and options for meeting heating and cooling loads (e.g. gas-fired heaters, absorption chillers, or solar water heaters) are evaluated alongside an emerging micro-concentrating solar power ( -CSP) technology featuring a solar thermal organic Rankine cycle (ORC). Photovoltaics hybridized with LPG/Propane and -CSP trigeneration are the lowest cost alternatives for satisfying important but often overlooked thermal requirements, with cost advantages for CSP depending on latitudinal variation in insolation and thermal parameters. For a 15-year project lifetime, the net present cost for meeting clinic energy needs varied from 45 to 75 k USD, with specific levelized electricity costs of 0.26–0.31 USD/kWh. In comparison, diesel generation of electricity is both costly (>1 USD/kWh) and polluting (94 tons CO2 per site over 15 years), while LPG/Propane based heating and cooling emits 160–400 tons CO2 depending on ambient conditions. The comparative analysis of available technologies indicates that where the energy demand includes a mixture of electrical and thermal loads, as in typical health and education outposts, on-carbon emitting -CSP trigeneration approaches can be cost-effective.
Disciplines :
Energy Sociology & social sciences
Author, co-author :
Orosz, Matthew; Massachusetts Institute of Technology - MIT > Parsons Laboratory
Quoilin, Sylvain ; Université de Liège - ULiège > Département d'aérospatiale et mécanique > Systèmes énergétiques
Hemond, Harold; Massachusetts Institute of Technology - MIT > Parsons Laboratory
Language :
English
Title :
Technologies for heating, cooling and powering rural health facilities in sub-Saharan Africa
Publication date :
2013
Journal title :
Proceedings of the Institution of Mechanical Engineers. Part A, Journal of Power and Energy
ISSN :
0957-6509
eISSN :
2041-2967
Publisher :
Professional Engineering Publishing, United Kingdom
Rural energy and development: improving energy supplies for 2 billion people, best practice paper 15912. Washington, DC: Author ; 1996 :
Powering up: costing power infrastructure spending needs in sub-Saharan Africa, Africa infrastructure country diagnostic, background paper 5 (phase II) 61811. Washington, DC: Author ; 2009 :
Saghir J Energy and poverty: myths, links, and policy issues, energy and mining sector board 37481. Washington, DC: World Bank ; 2005 :
Deichmann U, Meisner C, Murray S, et al The economics of renewable energy expansion in rural sub-Saharan Africa, technical paper 5193. Washington DC: The World Bank ; 2010 :
Foley G Photovoltaic applications in rural areas of the developing world, technical paper 304. Washington, DC: Joint UNDP World Bank Energy Sector Management and Assistance Programme ; 1995 :
Krause M, Nordstrom S Solar photovoltaics in Africa: experiences with financing and delivery models, monitoring & evaluation report 2. New York: UNDP Global Environment Facility ; 2004 :
Chakrabarti S, Chakrabarti S. Rural electrification programme with solar energy in remote region - a case study in an island. Energy Policy. 2002 ; 30: 33-42
Republic of India 2011 Census, "Maps of India". http://www.mapsofindia.com/census2011/population-density.html (accessed 10 May 2012).
Naude W World development report, technical report. Washington, DC: World Bank ; 2009 :
Brew-Hammond A. Challenges to increasing access to modern energy services in Africa, background paper, forum of energy ministers of Africa. In: Conference on energy security and sustainability, Kwame Nkrumah University of Science and Technology, Kumasi, Ghana, 30 March 2007.
United Nations. Millennium development goals, http://www.un.org/ millenniumgoals/ (2000, accessed 10 May 2012)..
Cabraal R, Barnes D, Agarwal S. Productive uses of energy for rural development. Ann Rev Environ Resour. 2005 ; 30: 117-144
Burman K, Lilienthal P, Kline D In: Proceedings of ISES solar world congress 2009: Renewable energy shaping our future, 11-14 October 2009, Johannesburg, South Africa. Washington, DC: International Solar Energy Society (ISES) ; 2009: 910-919.
The welfare impact of rural electrification: a reassessment of the costs and benefits, IEG impact evaluation 45400. Washington, DC: Author ; 2008 :
Ezzati M, Bailis R, Kammen D, et al. Energy management and global health. Ann Rev Environ Resour. 2004 ; 29: 383-419
Kirubi C, Jacobson A, Kammen D, et al. Community-based electric micro grids can contribute to rural development: evidence from Kenya. World Dev. 2009 ; 37: 1208-1221
Moner-Girona M, Ghanadan R, Jacobson A, et al. Decreasing PV costs in Africa. Refocus. 2006 ; January/February: 40-45
Krugman P. Here comes the sun. The New York Times, 6 November 2011, p. A25.
Sales of diesel gensets reach new highs, African review of business and technology, http://tinyurl.com/dieselafrica (2008, accessed 25 March 2012).
Goncalves D. The solar PV gold rush to South Africa. CA, USA: Frost & Sullivan, 2011. http://tinyurl.com/d4ajcbl (2011, accessed 25 March 2012).
Bony L, Doig S, Hart C, et al Achieving low-cost solar PV: industry workshop recommendations for near-term balance of system cost reductions, technical report. Snowmass, CO: Rocky Mountain Institute ; 2010 :
Rehman S, Al-Hadhrami L. Study of a solar PV-diesel-battery hybrid power system for a remotely located population near Rafha, Saudi Arabia. Energy. 2010 ; 35: 4986-4995
Chigwada J. Paper presented at the workshop on financing mechanism and business model for PV project, cited in Krause 2004, May 2003, Pretoria, South Africa.
Powering health: energy management in your health facility. Washington, DC: United States Agency for International Development ; 2011 :
Photovoltaic applications in rural areas of the developing world, technical paper 21992. Washington, DC: Author ; 2000 :
Study on PV market chains in East Africa, World Bank study. Africa, October ; 2003 :
Kammen D, Kirubi C. Poverty, energy and resource use in developing countries: focus on Africa, 2008. Ann NY Acad Sci. 2008 ; 1136: 348-357
Axel K, Ingeborg S, Günter K. How long do nosocomial pathogens persist on inanimate surfaces? A systematic review. BMC Infect Dis. 2006 ; 6: 130-130
Steadman R. The assessment of sultriness. Part I: a temperature-humidity index based on human physiology and clothing science. J Appl Meteorol. 1979 ; 18: 861-873
Seppänen O, Fisk WJ and David F. Cost benefit analysis of the night time-ventilative cooling in office building. In: Proceedings of the Healthy Buildings 2003 Conference, Singapore, vol. 3, 7-11 December 2012, Healthy Buildings 2003, Inc., Singapore.
Standard 62, ventilation for acceptable indoor air quality, technical report. Atlanta, GA: American Society of Heating, Refrigerating and Air Conditioning Engineers ; 2007 :
Standard 55, thermal environmental conditions for human occupancy, technical report. Atlanta GA: American Society of Heating, Refrigerating and Air Conditioning Engineers ; 2010 :
Dalton J, Gott J, Hartford S, et al Unified facilities criteria (UFC) design: medical military facilities. USA: Department of Defense ; 2012 :
Liquefied petroleum gas safety association of southern Africa, fuel prices March 2012, http://www.lpgas.co.za/page34/page34.html (2012, accessed 25 March, 2012).
Taele B, Gopinathan K, Mokhutsoane L. The potential of renewable energy technologies for rural development in Lesotho. Renewable Energy. 2007 ; 32: 609-622
World Bank, "World databank". http://databank.worldbank.org/ data/views/variableSelection/selectvariables.aspx?source=world-development- indicators (2012, accessed 15 December 2012).
UNESCO institute for statistics data centre, http://www.uis.unesco.org/ Pages/default.aspx (2012, accessed 15 December 2012).
Robert C. Rapid rural appraisal: rationale and repertoire. Publ Adm Dev. 1980 ; 1: 94-106
Lambert T, Gilman P and Lilienthal P. Micropower system modeling with HOMER. In: FA Farret and M Godoy Simoes (eds.) Integration of alternative sources of energy, ch. 15. John Wiley & Sons, Inc., 2006, www.poweringhealth.org (2006, accessed 15 January 2012).
Orosz M. Thermosolar and photovoltaic hybrid systems for distributed power applications. PhD Thesis, Massachusetts Institute of Technology, Cambridge, MA, 2012.
NASA Atmospheric Science Data Center. Surface meteorology and solar energy, http://eosweb.larc.nasa.gov/ (2012, accessed 15 January 2012)..
Quoilin S, Orosz M, Hemond H, et al. Performance and design optimization of a low-cost solar organic Rankine cycle for remote power generation. Solar Energy. 2011 ; 85: 955-966
Miller D, Hope C. Learning to lend for off-grid solar power: policy lessons from World Bank loans to India, Indonesia, and Sri Lanka. Energy Policy. 2000 ; 28: 87-105
Chaurey A, Kandpal TC. A techno-economic comparison of rural electrification based on solar home systems and PV microgrids. Energy Policy. 2010 ; 38: 3118-3129
Bartel T, Butz L, Butz T, et al Costs of utility distributed generators, 1-10 MW twenty-four case studies, technical report (1007760). Palo Alto, CA: Electric Power Research Institute ; 2003 :
Lilly DA. Analysis and performance of gas-electric hybrid chiller systems. MS Thesis, Georgia Institute of Technology, May 1998.
Jimenez A, Olson K Renewable energy for rural health clinics, technical report. Golden, CO: National Renewable Energy Laboratory ; 1998 :
Concentrating solar power, technical report 2 (Renewable energy technologies: cost analysis series). Bonn, Germany: IRENA ; 2012 :
Distributed generation renewable energy estimate of costs. Golden, Colorado: National Renewable Energy Laboratory ; 2012 :
Guth J. Resolving the paradoxes of discounting in environmental decisions. Transnatl Law Contemp Probl. 2009 ; 18: 95-114
Yaholnitsky I. PV panel wholesale prices in South Africa, personal communication. Director, Bethel Business and Community Development Center, March 2012.
Kozlowski D. Onsite options, facilitiesnet, http://www.facilitiesnet.com/ energyefficiency/article/Onsite-Options-1679# (2002, accessed 25 March 2012).
Aabakken J Power technologies energy data book, technical report 620-39728. 620 -39728, 4th ed. Golden, CO: National Renewable Energy Laboratory, 2006. Golden, CO: National Renewable Energy Laboratory ; 2006 :
Assessment of backup power needs for selected laboratories in Mozambique, final report 620-39728. Arlington, VA: Author ; 2010 :
Malosh J and Johnson R. Part load economy of diesel-electric generators, final report. Fairbanks, AK: State of Alaska Department of Transportation and Public Facilities, Division of Planning, Research Section, 1985.
Ehsan M, Bhuiyan S. Dual fuel performance of a small diesel engine for applications with less frequent load variations. Int J Mech Mechatron Eng. 2009 ; 9: 30-39
