Research Article
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Year 2019, Volume: 2 Issue: 4, 222 - 232, 31.12.2019
https://doi.org/10.35208/ert.628096

Abstract

References

  • Alem, Y., Beyene, A. D., Köhlin, G. and Mekonne, A. (2016). ‘ Modeling household cooking fuel choice: A panel multinomial logit approach’. Energy Economics 59: 129–137
  • Arogo, Y. A. (2013). ‘Energy Poverty and Liquefied Petroleum Gas (LPG) in Kenya’. A Research Project Submitted in Partial Fulfilment of the Requirements for the Award of the Degree of Master of Arts in Economics of the University of Nairobi, Kenya, 94pp
  • Baiyegunhi, L. J. and Hassan, M.B. (2014). ‘Rural household fuel energy transition: Evidence from Giwa state, Nigeria’. Energy for sustainable development 2014: (20) 30-35.
  • Barria, R.M.P. ‘ Indoor Air Pollution by Particulate Matter from Wood Fuel: An Unresolved Problem. Environment Pollution and Climate Change’, 2016: 1:104.doi:104172/2573-458X.1000104
  • Bauner, D., Sunder, M., Senyagawa, J. and Doyle, J. (2012). ‘Sustainable Energy Markets in Tanzania, Report II: Analysis and Conclusion’. Stockholm Environmental Institute (SEI) and Renewable Energy Technology (RENETEC), September 2012. 36pp
  • Bukarasa,J.S. (2011). ‘Indoor Air Pollution, Social Inequality and Acute Respiratory Diseases in Tanzania’. A Published Thesis Submitted as Partial Fulfilment for the Award of the Bachelor Degree to Umea International School of Public Health, Umea University. 44pp Deloitte, (2017). ‘Tanzania Economic Outlook 2017: Joining the Dotts’. 16pp
  • ENERGIA (2014). ‘Cooking with Gas; Why Women in Developing Countries want LPG and how they can get it.’ A Report developed for World LPG Association in 2014. 69pp.
  • EWURA [Energy and Water Utility Regulation Authority] (2017). ‘Energy and Water Utility Regulation Authority Strategic Plan for 2017/18 – 2021/22’. 108pp
  • EWURA [Energy and Water Utility Regulation Authority]. (2015). ‘Downstream Petroleum Subsector Performance Review Report of the year 2015’. 74pp
  • EWURA [Energy and Water Utility Regulation Authority]. (2016). ‘Downstream Petroleum Sub-Sector Performance Review Report for the Year 2016’. 78pp
  • Ezzati, M., López, A. D., Rodgers, A., Vander, H. S. and Murray, C.J. (2002). ‘Selected major risk factors and global and regional burden of disease’. Lancet, 2002: (360): 1347-1360.
  • Gebreegziabher, Z.M., Khassie,A. and Kohlin, G. (2012). ‘Urban Energy Transition and Technology Adoption: The Case of Tigrai, Nothern Ethiopia’. Energy Economics, 2012: 410-418
  • Gupt, G. and Kohlin, G. (2006). Preferrence for Domestic Fuels: Analysis with Socio Economic Factors and Ranking in Kolkata, India. Ecological Economics, 2006: 107-121
  • Hosier, R. H. and Dowd, J. (1987). ‘Household fuel choice in Zimbabwe: an empirical test of the energy ladder hypothesis’. Resources and Energy, 9:347–61.
  • IEA [International Energy Agency] (2017) ‘Energy Access Outlook 2017’. The World Outlook Special Report. 140pp
  • IEA [International Energy Agency]. (2011). ‘Energy for All: Financing Access for the Poor’. A Special Early Except of the World Energy Outlook 48pp
  • IEA and WHO. [International Energy Agency and World Health Organisation] (2011). ‘Energy Poverty: How to Make Modern energy Access universal?’ Special early excerpt of the World Energy Outlook 2010 for the 2010 UN MDG Review Summit.
  • IEA, [International Energy Agency]. (2013). ‘Redrawing the Energy Climate Map: World Energy Outlook Special Report’. 126pp
  • Imelda. (2016). ‘Does Fuel-Switching Improve Health? : Evidence from LPG Subsidy Program’. WIDER Development Conference on Human capital and growth, 6-7 June 2016 Helsinki, Finland.
  • John, G. R. and Kimambo, C.Z.M. (2005).’ Assessment of Sources of Cooking Energy for Urban Institutions in Tanzania’. Tanzanian Engineer Journal, 2005: 8 (2): 40-52
  • Johnson, E. (2014). ‘Substituting LPG for Wood: Carbon and deforestation impact’. A World Liquefied Petroleum Gas Association (WLPGA) report, World Bank (WB) Cooking for life Campaign. 24pp. retrieved from https://www.wlpga.org/wp-content/uploads/2015/09/substituting-lp-gas-for-wood-carbon-and-deforestation-impacts1.pdf on 12.5.2018
  • Kaburia, R. (2016). ‘Challenges of liquid petroleum gas penetration in Kenya’. International Journal of Economics & Finance, 2016: 2 (3), 161-180.
  • Kilabuko J.H. and Nakai, S. (2007). ‘Effects of Cooking Fuels on Acute Respiratory Infections in Children in Tanzania’. International Journal of Environment Research and Public Health, 2007 (4): 283-288
  • Kilahama, F. (2004). ‘Impact of Increase Charcoal Consumption to Forest and Wood Land in Tanzania’. Tanzania Association of Foresters (TAF) 2004; Dar es Salaam
  • KNBS [Kenya National Bureau of Statistics] (2017). ‘Economic Survey 2017’. ISBN 978-9966-102-00-3. 309PP
  • Kojima, M. (2011). ‘The Role of Liquefied Petroleum Gas in Reducing Energy Poverty’. The World Bank Sustainable Energy Department; Extractive Industries for Development Series #25. 95pp
  • Kroon, B.V., Brouwer, R, and Beukering, P.J.H. (2013). ‘The Energy ladder: Theoretical myth or Empirical Truth? Results from a Meta-Analysis’. Renewable and Sustainable Energy Reviews. 2013: (20):504-513
  • Lancet (2015). ‘Global, regional, and national disability-adjusted life-years (DALYs) for 315 diseases and injuries and healthy life expectancy (HALE), 1990-2015: a systematic analysis for the Global Burden of Disease Study 2015’. Lancet. 2016 Oct 8; 388(10053):1603-1658. doi: 10.1016/S0140-6736(16)31460-X.
  • Lusambo, L.P. (2016). ‘Household Energy Consumption Patterns in Tanzania’. Journal of Ecosystem Ecograph S.5:007. 2016, Doi 10.4172/2157-7625.S5-007
  • Maliti, E. and Mnenwa, R. (2011). ‘Affordability and Expenditure Patterns for Electricity and Kerosine in Urban Households in Tanzania’. Research on Poverty Alleviation (REPOA) research report 2011/2. 42pp
  • Massawe, T., Kweka, A.E. and Bengesi, K.M.K. (2015). ‘Patterns of Household Cooking Energy and Associated Factors: Experience from Kilimanjaro Region, Tanzania’. Intersect 8(3):1-25
  • Mensah, J.T. and Adu, G. (2013). ‘An empirical analysis of Household energy choice in Ghana’. A Working Paper Series 2013:6, Swedish University of agricultural Science; Department of Economics, ISSN 1401- 4068. ISRN-WPS-13/06-SE.
  • Msafiri, M.J. (2009). ‘Cooking as a Source of Indoor Air Pollution in Rural Areas of Tanzania.’ International Journal of Biological and Chemical Sciences. 3(5): 934-947
  • Mwaura, F., Okoboi, G. and Ahaibwe, G. (2014). ‘Determinant of household choice of cooking energy in Uganda’. The Economic Policy Research Centre (EPRC) Research series No 114 of 2014, 24pp.
  • NBS and REA. [National Bureau of Statistics and Rural Energy Agency] (2016). ‘Energy Access Situation Report, 2016 Tanzania Mainland, 2017’ 352pp
  • Ndambuki, J.M. and Rwanga, S. (2008). ‘Assessment of Air Pollution in Residential Areas: A Case of Kinondoni Municipality, Tanzania’. Journal for New Generation Sciences, 6(1): 32-40
  • NEP [National Energy Policy] (2015). 64pp
  • Rahut, D.B., Behera, B., and Ali A. (2016). ‘Patterns and determinants of household use of fuels for cooking: Empirical evidence from sub-Saharan Africa’. Energy, 117: 93-104
  • Reddy, S. B. (1995). ‘A Multilogit Model for Fuel Shifts in the Domestic Sector’. 20 (9): 929-936.
  • Sanga, G. A. and Jannuzzi, G. D. M. (2005). ‘Impact of Efficient Stoves and Cooking Fuels Substitution in Family Expenditures of Urban Households in Dar-es-Salaam Tanzania’. Energy Discussion Paper No. 2.59.1/2005. 16pp
  • Sepp, S. (2014). ‘Multiple-Household Fuel Use: a balanced choice between firewood, charcoal and LPG’. A Technical Report of 2014 retrieved from https://www.researchgate.net/publication/282365331_Multiple-Household_Fuel_Use_-_A_balanced_choice_between_firewood_charcoal_and_LPG on 18.02.2018
  • Thadeo, S. M. (2014). ‘Economics of Urban Households’ Cooking Fuel Consumption in Arusha City, Tanzania’. A dissertation submitted in partial fulfilment of the requirement for the degree of Master of Science in Environmental and Natural Resource Economics of Sokoine University of Agriculture, Morogoro, Tanzania.81pp
  • TRA [Tanzania Revenue Authority] (2014). ‘Tanzania Revenue Authority Statistics’. [http://www.tra.go.tz/index] Accessed on 27/3/2014
  • URT [United Republic of Tanzania] (2015). ‘The National Five Year Development Plan II (2016/17 – 2020/21); Naturing Industrialization for Economic Transformation and Human Development’. 178pp
  • URT [United Republic of Tanzania] (2016). ‘Power System Master Plan 2016 Update’. 139pp
  • WHO [World Health Organisation] (2014) . ‘Household air pollution and health. WHO Fact sheet N 292’. Updated March 2014. Available at: http://www.who.int/mediacentre/factsheets/fs292/en/ (accessed on 16 May 2014)

Biomass to liquefied petroleum gas cooking energy: A solution to indoor pollution ailments in Temeke Municipality, Dar-Es-Salaam

Year 2019, Volume: 2 Issue: 4, 222 - 232, 31.12.2019
https://doi.org/10.35208/ert.628096

Abstract

In 2010 World Health
Organization estimated that three people per minute die prematurely in
Sub-Saharan Africa from diseases attributable to Indoor Air Pollution (IAP).
About 95% of Tanzanians still use biomass cooking fuels (BCF) which is the main
source of IAP. Promotion of Liquefied Petroleum Gas (LPG) was done since
mid-2000s to substitute BCF. However, the use of LPG accounts for only 7.2% of
Tanzanians to date. Therefore this paper examined factors influencing use of
LPG in Temeke municipality - Dar-es-Salaam. Data were collected from 160
respondents using questionnaires and analysed by using Probit regression model.
Results revealed that
  education level of
a household head, household income and time saved for cooking had significant
effect on use of LPG at a probability level of P<0.1. The probability of
using LPG increased by 3.4% with an increase of one more year of education for
household heads attaining formal education. Moreover, the probability of using
LPGs increased by 11% among household heads whose monthly income increased by
1million Tanzanian Shillings (USD 409). Surprisingly, the probability of using
LPG decreased by 0.2% as households saved an additional minute compared to
using biomass fuels.
  It is recommended
that the government, private sector and development partners promote LPG use
through awareness creation; incorporating LPG use in education and energy
policy and conducting research on ‘value engineering of LPG cooking
  facilities’ to reduce costs for users.

References

  • Alem, Y., Beyene, A. D., Köhlin, G. and Mekonne, A. (2016). ‘ Modeling household cooking fuel choice: A panel multinomial logit approach’. Energy Economics 59: 129–137
  • Arogo, Y. A. (2013). ‘Energy Poverty and Liquefied Petroleum Gas (LPG) in Kenya’. A Research Project Submitted in Partial Fulfilment of the Requirements for the Award of the Degree of Master of Arts in Economics of the University of Nairobi, Kenya, 94pp
  • Baiyegunhi, L. J. and Hassan, M.B. (2014). ‘Rural household fuel energy transition: Evidence from Giwa state, Nigeria’. Energy for sustainable development 2014: (20) 30-35.
  • Barria, R.M.P. ‘ Indoor Air Pollution by Particulate Matter from Wood Fuel: An Unresolved Problem. Environment Pollution and Climate Change’, 2016: 1:104.doi:104172/2573-458X.1000104
  • Bauner, D., Sunder, M., Senyagawa, J. and Doyle, J. (2012). ‘Sustainable Energy Markets in Tanzania, Report II: Analysis and Conclusion’. Stockholm Environmental Institute (SEI) and Renewable Energy Technology (RENETEC), September 2012. 36pp
  • Bukarasa,J.S. (2011). ‘Indoor Air Pollution, Social Inequality and Acute Respiratory Diseases in Tanzania’. A Published Thesis Submitted as Partial Fulfilment for the Award of the Bachelor Degree to Umea International School of Public Health, Umea University. 44pp Deloitte, (2017). ‘Tanzania Economic Outlook 2017: Joining the Dotts’. 16pp
  • ENERGIA (2014). ‘Cooking with Gas; Why Women in Developing Countries want LPG and how they can get it.’ A Report developed for World LPG Association in 2014. 69pp.
  • EWURA [Energy and Water Utility Regulation Authority] (2017). ‘Energy and Water Utility Regulation Authority Strategic Plan for 2017/18 – 2021/22’. 108pp
  • EWURA [Energy and Water Utility Regulation Authority]. (2015). ‘Downstream Petroleum Subsector Performance Review Report of the year 2015’. 74pp
  • EWURA [Energy and Water Utility Regulation Authority]. (2016). ‘Downstream Petroleum Sub-Sector Performance Review Report for the Year 2016’. 78pp
  • Ezzati, M., López, A. D., Rodgers, A., Vander, H. S. and Murray, C.J. (2002). ‘Selected major risk factors and global and regional burden of disease’. Lancet, 2002: (360): 1347-1360.
  • Gebreegziabher, Z.M., Khassie,A. and Kohlin, G. (2012). ‘Urban Energy Transition and Technology Adoption: The Case of Tigrai, Nothern Ethiopia’. Energy Economics, 2012: 410-418
  • Gupt, G. and Kohlin, G. (2006). Preferrence for Domestic Fuels: Analysis with Socio Economic Factors and Ranking in Kolkata, India. Ecological Economics, 2006: 107-121
  • Hosier, R. H. and Dowd, J. (1987). ‘Household fuel choice in Zimbabwe: an empirical test of the energy ladder hypothesis’. Resources and Energy, 9:347–61.
  • IEA [International Energy Agency] (2017) ‘Energy Access Outlook 2017’. The World Outlook Special Report. 140pp
  • IEA [International Energy Agency]. (2011). ‘Energy for All: Financing Access for the Poor’. A Special Early Except of the World Energy Outlook 48pp
  • IEA and WHO. [International Energy Agency and World Health Organisation] (2011). ‘Energy Poverty: How to Make Modern energy Access universal?’ Special early excerpt of the World Energy Outlook 2010 for the 2010 UN MDG Review Summit.
  • IEA, [International Energy Agency]. (2013). ‘Redrawing the Energy Climate Map: World Energy Outlook Special Report’. 126pp
  • Imelda. (2016). ‘Does Fuel-Switching Improve Health? : Evidence from LPG Subsidy Program’. WIDER Development Conference on Human capital and growth, 6-7 June 2016 Helsinki, Finland.
  • John, G. R. and Kimambo, C.Z.M. (2005).’ Assessment of Sources of Cooking Energy for Urban Institutions in Tanzania’. Tanzanian Engineer Journal, 2005: 8 (2): 40-52
  • Johnson, E. (2014). ‘Substituting LPG for Wood: Carbon and deforestation impact’. A World Liquefied Petroleum Gas Association (WLPGA) report, World Bank (WB) Cooking for life Campaign. 24pp. retrieved from https://www.wlpga.org/wp-content/uploads/2015/09/substituting-lp-gas-for-wood-carbon-and-deforestation-impacts1.pdf on 12.5.2018
  • Kaburia, R. (2016). ‘Challenges of liquid petroleum gas penetration in Kenya’. International Journal of Economics & Finance, 2016: 2 (3), 161-180.
  • Kilabuko J.H. and Nakai, S. (2007). ‘Effects of Cooking Fuels on Acute Respiratory Infections in Children in Tanzania’. International Journal of Environment Research and Public Health, 2007 (4): 283-288
  • Kilahama, F. (2004). ‘Impact of Increase Charcoal Consumption to Forest and Wood Land in Tanzania’. Tanzania Association of Foresters (TAF) 2004; Dar es Salaam
  • KNBS [Kenya National Bureau of Statistics] (2017). ‘Economic Survey 2017’. ISBN 978-9966-102-00-3. 309PP
  • Kojima, M. (2011). ‘The Role of Liquefied Petroleum Gas in Reducing Energy Poverty’. The World Bank Sustainable Energy Department; Extractive Industries for Development Series #25. 95pp
  • Kroon, B.V., Brouwer, R, and Beukering, P.J.H. (2013). ‘The Energy ladder: Theoretical myth or Empirical Truth? Results from a Meta-Analysis’. Renewable and Sustainable Energy Reviews. 2013: (20):504-513
  • Lancet (2015). ‘Global, regional, and national disability-adjusted life-years (DALYs) for 315 diseases and injuries and healthy life expectancy (HALE), 1990-2015: a systematic analysis for the Global Burden of Disease Study 2015’. Lancet. 2016 Oct 8; 388(10053):1603-1658. doi: 10.1016/S0140-6736(16)31460-X.
  • Lusambo, L.P. (2016). ‘Household Energy Consumption Patterns in Tanzania’. Journal of Ecosystem Ecograph S.5:007. 2016, Doi 10.4172/2157-7625.S5-007
  • Maliti, E. and Mnenwa, R. (2011). ‘Affordability and Expenditure Patterns for Electricity and Kerosine in Urban Households in Tanzania’. Research on Poverty Alleviation (REPOA) research report 2011/2. 42pp
  • Massawe, T., Kweka, A.E. and Bengesi, K.M.K. (2015). ‘Patterns of Household Cooking Energy and Associated Factors: Experience from Kilimanjaro Region, Tanzania’. Intersect 8(3):1-25
  • Mensah, J.T. and Adu, G. (2013). ‘An empirical analysis of Household energy choice in Ghana’. A Working Paper Series 2013:6, Swedish University of agricultural Science; Department of Economics, ISSN 1401- 4068. ISRN-WPS-13/06-SE.
  • Msafiri, M.J. (2009). ‘Cooking as a Source of Indoor Air Pollution in Rural Areas of Tanzania.’ International Journal of Biological and Chemical Sciences. 3(5): 934-947
  • Mwaura, F., Okoboi, G. and Ahaibwe, G. (2014). ‘Determinant of household choice of cooking energy in Uganda’. The Economic Policy Research Centre (EPRC) Research series No 114 of 2014, 24pp.
  • NBS and REA. [National Bureau of Statistics and Rural Energy Agency] (2016). ‘Energy Access Situation Report, 2016 Tanzania Mainland, 2017’ 352pp
  • Ndambuki, J.M. and Rwanga, S. (2008). ‘Assessment of Air Pollution in Residential Areas: A Case of Kinondoni Municipality, Tanzania’. Journal for New Generation Sciences, 6(1): 32-40
  • NEP [National Energy Policy] (2015). 64pp
  • Rahut, D.B., Behera, B., and Ali A. (2016). ‘Patterns and determinants of household use of fuels for cooking: Empirical evidence from sub-Saharan Africa’. Energy, 117: 93-104
  • Reddy, S. B. (1995). ‘A Multilogit Model for Fuel Shifts in the Domestic Sector’. 20 (9): 929-936.
  • Sanga, G. A. and Jannuzzi, G. D. M. (2005). ‘Impact of Efficient Stoves and Cooking Fuels Substitution in Family Expenditures of Urban Households in Dar-es-Salaam Tanzania’. Energy Discussion Paper No. 2.59.1/2005. 16pp
  • Sepp, S. (2014). ‘Multiple-Household Fuel Use: a balanced choice between firewood, charcoal and LPG’. A Technical Report of 2014 retrieved from https://www.researchgate.net/publication/282365331_Multiple-Household_Fuel_Use_-_A_balanced_choice_between_firewood_charcoal_and_LPG on 18.02.2018
  • Thadeo, S. M. (2014). ‘Economics of Urban Households’ Cooking Fuel Consumption in Arusha City, Tanzania’. A dissertation submitted in partial fulfilment of the requirement for the degree of Master of Science in Environmental and Natural Resource Economics of Sokoine University of Agriculture, Morogoro, Tanzania.81pp
  • TRA [Tanzania Revenue Authority] (2014). ‘Tanzania Revenue Authority Statistics’. [http://www.tra.go.tz/index] Accessed on 27/3/2014
  • URT [United Republic of Tanzania] (2015). ‘The National Five Year Development Plan II (2016/17 – 2020/21); Naturing Industrialization for Economic Transformation and Human Development’. 178pp
  • URT [United Republic of Tanzania] (2016). ‘Power System Master Plan 2016 Update’. 139pp
  • WHO [World Health Organisation] (2014) . ‘Household air pollution and health. WHO Fact sheet N 292’. Updated March 2014. Available at: http://www.who.int/mediacentre/factsheets/fs292/en/ (accessed on 16 May 2014)
There are 46 citations in total.

Details

Primary Language English
Subjects Environmental Engineering
Journal Section Research Articles
Authors

Proscovia Kamugısha 0000-0003-2282-7693

Mohamed Mahamudu Kombo This is me 0000-0001-6499-572X

Sebastian Mhanga This is me 0000-0002-9991-1394

Publication Date December 31, 2019
Submission Date October 2, 2019
Acceptance Date December 16, 2019
Published in Issue Year 2019 Volume: 2 Issue: 4

Cite

APA Kamugısha, P., Mahamudu Kombo, M., & Mhanga, S. (2019). Biomass to liquefied petroleum gas cooking energy: A solution to indoor pollution ailments in Temeke Municipality, Dar-Es-Salaam. Environmental Research and Technology, 2(4), 222-232. https://doi.org/10.35208/ert.628096
AMA Kamugısha P, Mahamudu Kombo M, Mhanga S. Biomass to liquefied petroleum gas cooking energy: A solution to indoor pollution ailments in Temeke Municipality, Dar-Es-Salaam. ERT. December 2019;2(4):222-232. doi:10.35208/ert.628096
Chicago Kamugısha, Proscovia, Mohamed Mahamudu Kombo, and Sebastian Mhanga. “Biomass to Liquefied Petroleum Gas Cooking Energy: A Solution to Indoor Pollution Ailments in Temeke Municipality, Dar-Es-Salaam”. Environmental Research and Technology 2, no. 4 (December 2019): 222-32. https://doi.org/10.35208/ert.628096.
EndNote Kamugısha P, Mahamudu Kombo M, Mhanga S (December 1, 2019) Biomass to liquefied petroleum gas cooking energy: A solution to indoor pollution ailments in Temeke Municipality, Dar-Es-Salaam. Environmental Research and Technology 2 4 222–232.
IEEE P. Kamugısha, M. Mahamudu Kombo, and S. Mhanga, “Biomass to liquefied petroleum gas cooking energy: A solution to indoor pollution ailments in Temeke Municipality, Dar-Es-Salaam”, ERT, vol. 2, no. 4, pp. 222–232, 2019, doi: 10.35208/ert.628096.
ISNAD Kamugısha, Proscovia et al. “Biomass to Liquefied Petroleum Gas Cooking Energy: A Solution to Indoor Pollution Ailments in Temeke Municipality, Dar-Es-Salaam”. Environmental Research and Technology 2/4 (December 2019), 222-232. https://doi.org/10.35208/ert.628096.
JAMA Kamugısha P, Mahamudu Kombo M, Mhanga S. Biomass to liquefied petroleum gas cooking energy: A solution to indoor pollution ailments in Temeke Municipality, Dar-Es-Salaam. ERT. 2019;2:222–232.
MLA Kamugısha, Proscovia et al. “Biomass to Liquefied Petroleum Gas Cooking Energy: A Solution to Indoor Pollution Ailments in Temeke Municipality, Dar-Es-Salaam”. Environmental Research and Technology, vol. 2, no. 4, 2019, pp. 222-3, doi:10.35208/ert.628096.
Vancouver Kamugısha P, Mahamudu Kombo M, Mhanga S. Biomass to liquefied petroleum gas cooking energy: A solution to indoor pollution ailments in Temeke Municipality, Dar-Es-Salaam. ERT. 2019;2(4):222-3.

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