Renewable sources of energy Filip Černoch cernoch@mail.muni.cz Energy policy of the EU What are RES? • Renewable energy is energy derived from natural processes that is replenished at a higher rate than it is consumed. • Solar, wind, geothermal, hydropower, bioenergy, ocean power. • Traditional vs. „new“ renewables. • Variable/non-dispatchable (wind, solar) vs. dispatchable (hydro, biomass/biogas) RES. Drivers for deployment • Environmental concerns. • Energy security. • Rural development. • Employment. • High-tech manufacturing. RES and climate change • Could RES be the pillar of the (global) energy system? • What is the growth potential? = are they ready to meet some substantial share of energy demand of society? Deployment of new technologies (RES) – governmental perspective 1) Inception phase – creates a climate allowing investment in early projects. 2) Take off phase - managing support policy costs. 3) Consolidation phase – to integrate mature technology to the system (RES can no longer be considered in isolation due to their impacts across the whole energy/power system that needs to acomodate them). 7 RES deployment curve Inception phase Renewable power capacity and annual growth rate, 2000-2015. • Targets combined with financial and regulatory support to create market for RES and decrease investment risks. Take off phase - barriers Sector and barriers Cost barriers Regulatory barriers Market entry barriers Technical barriers ELECTRIC ITY Relatively high initial capital costs for some technologies; subsidies for fossil fuels and nuclear power; unfavorable power pricing rules Non-existent or insuficient legal framework for independent producers; restrictions on siting, construction and transmission access; arduous permitting processes and utility interconnection requirements; inadequate market operation rules Lack of access to credit; higher cost of capital due to lack of experience; perceived technology performance uncertainty and risk; lack of technical or commercial skill and information Integrating high shares of variable renewable energy (VRE) into existing grids Take off phase - barriers Sector and barriers Cost barriers Regulatory barriers Market entry barriers Technical barriers HEAT High initial capital costs compared to well-established conventional systems, such as gas boilers; subsidies for fossil fuels Arduous permitting processes Lack of access to credit and financial incentives; lack of local technical or commercial skills; insuficient public awareness of available technologies and the broad spectrum of application options Integrating renewable heating and cooling systems into existing infrastructure; distributed nature of consumption; fragmentation of heating and cooling markets Take off phase - barriersSector and barriers Cost barriers Regulatory barriers Market entry barriers Technical barriers TRANSPORT (BIOFUELS) Higher costs relative to conventional fuels, in some markets Lack of government policy to set up charging infrastructure; cumbersome permitting process for setting up charging stations Immaturity of third-generation technology TRANSPORT (ELECTRICIT Y CARS) High cost for renewable energy technologies in personal vehicle transport relative to existing technologies Lack of government policy to set up charging infrastructure; cumbersome permitting process for setting up charging stations Lack of energy infrastructure (e.g., electric vehicle (EV) charging stations) Immaturity of technology; relatively short vehicle range Economy of RES Economic barriers - present when the cost of a technology is above the cost of competing alternatives. Mainly related to • externalities of conventional technologies not internalized • subsidies for conventional technologies • level of technology maturity Global subsidies for fossil-fuel consumption and renewables Current situation – RES consumption in major markets • 23% of electricity. • 5.5% of heat. • 4% of transportation. Current situation - electricity • For the first time RES accounted for more than 2/3 of global net electricity capacity growth. • Solar expanded the most quickly at 97 GW of addictions (over half in China). • China is responsible for 41% (438 GW) of global expansion. • EU the second-largets growth market (124 GW operation in 2018-2023). • Uncertain forecast in USA due to the changes in the federal tax code, trade policies etc. • India is to double its capacity over 2018-2023 (PV, onshore wind) Annual net electricity capacity additions by source Capacity growth by country/region Current situation - transport • Global conventional biofuel production expected to grow from 143 bn. litres in 2017 to 165 bn. litres in 2023. • The Asia-Pacific region and China combined responsible for half of production growth (security of supply). Weakening support in the EU. • Advanced biofuels (non-food crops, waste, resiudal feedstocks) expected to deliver 1.4 – 2.3 bn. litres in 2023. • Biofuel demand in aviation sector is growing, production remains low. Global conventinal biofuel production (L) and indexed road transport fuel demand (R) Current situation – heating /cooling • Heat account for over half of total final energy consumption (heating houses, water, cooking, drying…). RES (excl. traditional biomas) only 10%. • Bioenergy penetration higher in industry than in buildings. • RES electricity for heat is expected to have the 2nd largest absolute growth by 2023. Fuel shares in global heat consumption, 2017 Illustrative daily profile of space cooling load and solar PV output Consolidation phase - 1) auctions Utility-scale renewable capacity growth by remuneration type. Consolidation phase – 2) competitiveness of RES LCOE ranges for new utility-scale instalations by commissioning date Consolidation phase – 3) solar PV perspectives Solar PV capacity growth and total generation Consolidation phase – 4) solar PV perspectives Residental electricity prices compared with average residental LCOE, 2017 Consolidation phase – 5) integration of VRE • Traditional systems built around base- and peak-load source. • With VRE being pivotal part of the system flexibility is valued highly. Consolidation phase RES and climate change • Could RES be the pillar of the (global) energy system? • What is the growth potential? = are they ready to meet some substantial share of energy demand of society? Sources • ODI (2017): Phase-out 2020: Monitoring Europe´s fossil fuel subsidies • IRENA (2017): Rethinking Energy 2017