ESKOM S FINANCIAL CRISES AND CONTINUING TARIFF INCREASES

ESKOM S FINANCIAL CRISES AND CONTINUING TARIFF INCREASES Strategies for containing costs and stabilising its financial position. NERSA Public hearing on Eskom s revenue application for 2018/19 Cape Town, 30 October 2017 Dr Grové Steyn grove.steyn@meridianeconomics.co.za Meridian Economics 1

THIS STUDY Meridian Economics is currently finalising a study on the economics of: decommissioning Eskom s older power stations; and curtailing Eskom s capital expenditure programme. The results will be finalised and published by mid-november. Given the importance the matters under consideration at this series of NERSA public hearings we have decided to present the preliminary results here today. Findings are preliminary and might be revised. 2

RATIONALE FOR THE STUDY Eskom is in a sustained financial crises which has led to: the highest tariff increases in recorded history credit rating downgrades to junk status with more to come; and increased cost of and challenges to raise finance Primarily caused by: Rapidly escalating costs Enormous capital programme Primary energy costs especially coal HR costs, etc. Stagnant or declining demand: surplus capacity Vicious circle of rapidly rising prices and stagnant or falling demand. What can be done to improve the situation? Our investigation looked at the options of: curtailing Eskom s capital programme; and decommission expensive surplus capacity 3

LCOE (c/kwh) ESKOM S CONSTRUCTION PROGRAMME IS THE MAIN DRIVER OF ITS EXCESSIVE COST INCREASES Ingula, and esp. Medupi & Kusile are highly complex mega projects. Inevitably suffer from large cost and especially time overruns Has resulted in some of the most expensive coal power in the world Medupi: LCOE approximately R1.7/kWh Kusile: LCOE approximately R1.90/kWh (2017 ZAR, Nat Treasury EOCK of 8.2% real, post-tax) The build programme is the single largest reason why Eskom has required such large tariff increases. It is therefore import to consider whether it would make economic sense to curtail the programme. 250,0 200,0 150,0 100,0 50,0 0,0 Kusile Env Retr Capex Capex Fuel Cost Water cost Env Retr O&M Variable O&M Fixed O&M Medupi 4

ESKOM S SURPLUS CAPACITY: THE NEED FOR EARLIER DECOMMISSIONING Due to the surplus capacity and the age of some of our coal-fired stations, some stations may have to be decommissioned earlier than originally anticipated (Eskom, Integrated Report 2017) it is not necessary to run all our existing plant to meet demand We have identified Hendrina, Grootvlei and Komati as the stations with the biggest cash impact and they will be ramped down to zero production and placed in lean preservation (Eskom, Integrated Report, 2017) Eskom s Medium-term System Adequacy Outlook 2017-2021: Surplus capacity rises to 4-5GW in 2019/2020 even assuming higher demand growth than is being experienced currently (Eskom MTSAO, 31 July 2017: 13) Min Gigaba: Eskom has a surplus >5GW and governance/financial challenges pose an enormous risk to the country (http://www.miningweekly.com/article/budget2-2017-10-25) 5

STUDY DESIGN Focus Older coal stations: Arnot, Camden, Grootvlei, Hendrina, Komati, GrHeKo New build: Kusile Units 5 & 6. Methodology The CSIR was contracted to calculate each option s system alternative value (SAV) the system analysis I.e. the lowest system cost at which the system can replace the services provided by each power station (energy, capacity, etc.) from other resources, if it was to be retired earlier. We then conducted a more detailed study of the incremental costs of running each of these stations according to the original plans the power station analysis We then compare the two costs: If it is cheaper for the system to provide the services from other resources, rather than the station under investigation, then the station should be closed. 6

WE CONSIDER ONLY INCREMENTAL OR AVOIDABLE COSTS Sunk costs should be ignored. I.e. Capital costs already spent Unavoidable costs should be ignored. I.e Capital costs already committed with high cancellation penalties e.g Kusile Units 5 & 6. All that matters are the costs that the decision maker still has discretion over and which can in principle still be avoided. Incremental costs are thus similar to avoidable costs. 7

SYSTEM ANALYSIS ASSUMPTIONS: DECOMMISSIONING DATES FOR THE OLDER STATIONS Power Station IRP 2016 Start Date IRP 2016 End Date Early Decommissioning Date Arnot 2021 2029 2020 Camden 2020 2023 2018 Grootvlei 2025 2028 2019 Hendrina 2020 2026 2019 Komati 2024 2028 2020 8

1985 1987 1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011 2013 2015 2017 2019 2021 2023 2025 2027 2029 2031 2033 2035 2037 2039 2041 2043 2045 2047 2049 GWh SYSTEM ANALYSIS ASSUMPTIONS: HISTORIC AND FORECAST DEMAND 550000 500000 450000 400000 350000 300000 250000 200000 150000 100000 Electrical Energy Demand Moderate (IRP 2016 Low) Historical Demand High (IRP 2016 Base Case) Eskom: generated and purchased (in FY) IRP 2010 (Base Case) Eskom Revenue Application 2018/19 figures in blue i.e. Total Gross Production, GWh 9

2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 Tariff (ZAR/kWh) SYSTEM ANALYSIS ASSUMPTIONS: TECHNOLOGY LEARNING RATES 4 3,5 3 2,5 2 We assume wind costs of R0,46/kWh and solar costs of R0,37/kWh in 2030. These cost assumptions have already been realised globally in 2016 and 2017. The 2030 wind cost is close to the price recently achieved in Morocco, while the solar PV cost has already been achieved in several countries. 1,5 1 0,5 0 Year Assumptions: IRP 2016 - high (Solar PV) Assumptions: IRP 2016 - low (Solar PV) Assumptions for this study (Solar PV) Actuals: REIPPPP (BW1-4Exp) (Solar PV) Assumptions: IRP 2016 - high (Wind) Assumptions: IRP 2016 - low( Wind) Assumptions for this study (Wind) Actuals: REIPPPP (BW1-4Exp) (Wind) 10

POWER STATION ANALYSIS ASSUMPTIONS: COST DRIVERS INVESTIGATED We had to investigate the circumstances of each station and gather best estimates of its present and future relevant cost drivers, including of factors such as: Primary energy cost (coal supply arrangements and costs); Power station efficiency; Water costs; Fixed and variable operating and maintenance costs (FOM and VOM); Refurbishment costs; Environmental compliance retrofits required and the costs thereof; The increases in operating cost associated with environmental retrofits; The environmental levy; Decommissioning and the net present value of earlier decommissioning; Energy production profile (from system modelling); Operating capacity (from system modelling); 11

LCOE (c/kwh) POWER STATION SYSTEM VALUES (The opportunity cost of closing each option separately) 80,0 70,0 60,0 Early Decom System value 50,0 40,0 30,0 20,0 10,0 0,0 Arnot Camden Grootvlei Hendrina Komati Kusile (units 5&6) Values in April 2016 ZAR and 2016 PV terms GrHeKo 12

LCOE (c/kwh) POWER STATION COSTS AND SYSTEM VALUES 80,0 Env Retr Capex Capex Fuel Cost 80,0 70,0 Water cost Env Retr O&M Variable O&M Fixed O&M Early Decom System value 70,0 60,0 60,0 50,0 50,0 40,0 40,0 30,0 30,0 20,0 20,0 10,0 10,0 0,0 Arnot Camden Grootvlei Hendrina Komati Kusile (units 5&6) GrHeKo 0,0 Values in April 2016 ZAR and 2016 PV terms 13

ESTIMATED PV OF THE POTENTIAL COST SAVINGS FROM DECOMMISSIONING THE OLDER STATIONS PV of cost saving (2017 Rbn) Arnot 5 543 Camden 5 222 Grootvlei 6 086 Hendrina 7 977 Komati 3 735 GrHeKo 13 494 These numbers cannot be added to each other. 14

KUSILE UNITS 5&6 RESULTS Total station capital cost: approx. R250bn in 2017 PV terms (April 2017, based actuals to date and Eskom s current cost to completion estimates) i.e. AFUDC included (in NERSA terms); Nat Treasury EOCK (discount rate) of 8.2% real, after tax; If the capital cost saving of cancelling the completion of Units 5 & 6 is more than the capex savings threshold, then it should be cancelled. We have calculated the capex savings threshold to be: Approximately 1.8% of the PV of the total capital cost; or Approximately 9% of Eskom s budget for cost to completion for Kusile. Based on consistent under estimates we expect the final cost to completion to be higher than Eskom s current figure 15

KUSILE UNITS 5&6 RESULTS: POTENTIAL COST SAVINGS % of Eskom s Budget for cost to completion for Kusile* PV of CAPEX saving (R m) Nett CAPEX Saving (R m) 8.73% 4 667 0 15% 8 021 3 354 20% 10 695 6 028 *Assumed a 10% underestimate of remaining capital cost to completion 16

EMPLOYMENT AT ESKOM S POWER STATIONS Ensuring a fair and just transition will be critical. However, the employment impact at power stations will be smaller than what most people expect. Kusile and Medupi could absorb some personnel; Some could be utilised elsewhere to make up for natural attrition; and Some might have to be retrenched. BU GX Arnot 677 GX Camden 324 GX Grootvlei 427 GX Hendrina 644 GX Komati 331 GX Kusile 247 GrHeKo (Grootvlei, Hendrina, Komati) Employment 1402 Source: Eskom station employment figures extract from SAP July 2017 17

FINAL REMARKS Our estimates show that it will be possible to decommission GrHeKo and avoid the completion of Kusile Units 5 & 6, giving rise to a financial saving in the region of R17bn. These savings do not reflect the substantial savings in the impact on human health and other externalities. The changes away from coal towards cheaper new technologies occurring in our power sector are not unique to South Africa, but are part of the global Energy Transition. South Africa which is endowed with a Saudi Arabia of renewable energy resources will loose out against its competitors if we do not pursue this opportunity. The sustained crises at Eskom will have a large negative systemic impact on the economy if not urgently addressed. The options we briefly presented today should form part of broader, comprehensive strategy to respond to these challenges. These are large and difficult decisions to make with many vested interests that will be affected. We have already seen that Government and Eskom are partially paralysed and could struggle to take the right decisions in the public interest. It is exactly for situations like this that countries create independent regulators (or independent public protectors, independent courts, etc.). It is therefore critical that NERSA ensures that these issues are investigated and addressed and that Eskom is only allowed to recover prudent and efficient costs in its tariffs. 18

CONTACT US Suite EB04, Tannery Park, 23 Belmont Road, Rondebosch, 7700 +27 21 200 5857 grove.steyn@meridianeconomics.co.za