Abstract

Most mitigation scenarios compatible with a likely change of holding global warming well below 2 °C rely on negative emissions technologies (NETs). According to the integrated assessment models (IAMs) used to produce mitigation scenarios for the IPCC reports, the NET with the greatest potential to achieve negative emissions is bioenergy with carbon capture and storage (BECCS). Crucial questions arise about where the enormous quantities of biomass needed according to the IAM scenarios could feasibly be produced in a sustainable manner. Africa is attractive in the context of BECCS because of large areas that could contribute biomass energy and indications of substantial underground CO2 storage capacities. However, estimates of large biomass availability in Africa are usually based on highly aggregated datasets, and only a few studies explore future challenges or barriers for BECCS in any detail. Based on previous research and literature, this paper analyses the pre-conditions for BECCS in Tanzania by studying what we argue are the applications of BECCS, or the components of the BECCS chain, that are most feasible in the country, namely (1) as applied to domestic sugarcane-based energy production (bioethanol), and (2) with Tanzania in a producer and re-growth role in an international BECCS chain, supplying biomass or biofuels for export to developed countries. The review reveals that a prerequisite for both options is either the existence of a functional market for emissions trading and selling, making negative emissions a viable commercial investment, or sustained investment through aid programmes. Also, historically, an important barrier to the development of production capacity of liquid biofuels for export purposes has been given by ethical dilemmas following in the wake of demand for land to facilitate production of biomass, such as sugarcane and jatropha. In these cases, conflicts over access to land and mismanagement have been more of a rule than an exception. Increased production volumes of solid biomass for export to operations that demand bioenergy, be it with or without a CCS component, is likely to give rise to similar conflicts. While BECCS may well play an important role in reducing emissions in countries with high capacity to act combined with existing large point sources of biogenic CO2 emissions, it seems prudent to proceed with utmost caution when implicating BECCS deployment in least developed countries, like Tanzania.The paper argues that negative BECCS-related emissions from Tanzania should not be assumed in global climate mitigation scenarios.

Highlights

  • Most climate scenarios compatible with a likely change of holding global warming well below 2 °C rely on negative emissions technologies (NETs)

  • Based on the previous research and literature, this paper analyses the preconditions for bioenergy with carbon capture and storage (BECCS) in Tanzania by studying what we argue are the applications of BECCS, or the components of the BECCS chain, that are most feasible in the country, namely (1) as applied to domestic sugarcane-based energy production, and (2) with Tanzania in a producer and re-growth role in an international BECCS chain, supplying biomass or biofuels for export to developed countries

  • Because of the still highly hypothetical nature of BECCS development as a technological system, we treat these third and fourth steps as a single step in the concluding discussion. This framework should be seen as a simple set of criteria against which we evaluate the possibilities of BECCS development in Tanzania in the concluding discussion, and it is not employed in the main literature review, which follows

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Summary

Introduction

Most climate scenarios compatible with a likely change of holding global warming well below 2 °C rely on negative emissions technologies (NETs). According to the integrated assessment models (IAMs) used to produce climate scenarios for the Intergovernmental Panel on Climate Change (IPCC) reports, the NET with the greatest potential to achieve negative emissions is bioenergy with carbon capture and storage (BECCS) (Beck and Mahony 2018; Fuss et al 2014; Gough et al 2018a, b; Harper et al 2018). This method features in the scenarios despite only experimental scale experiences and acknowledged major uncertainties related to, for example, technological capacity, maturity and the availability of sustainable biomass.

Background
Analytical framework and method
International formal institutions related to climate change
Domestic formal institutions related to climate change
The case of SEKAB
Discussion
Institutions
Market formation
Findings
Advocacy groups and entry of firms
Conclusions

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