PURE ENERGY AND INNOVATIONS FOR CHILE

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Clarence Stephens
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1 PURE ENERGY AND INNOVATIONS FOR CHILE

2 About Us RusHydro is Russia s largest generation company and one of the world s largest hydropower generation company, based on installed capacity RusHydro is the leader in renewable energy using water currents, sea tides, wind and geothermal energy RusHydroboasts unique advantages that leave it well-positioned to strengthen its positions and enhance its role both domestically and abroad: Clean power generation Energy efficient production The basis for system reliability The driver of renewable energy innovations State-of-the-art management with extensive experience in creating and managing hydropower assets, including in foreign markets Engineering and R&D Equipment production Construction & modernisation Generation Sales JSC NIIES JSC Institute Hydroproject JSC VNIIG JSC Lenhydroproject JV with Alstom JV with State Corporation Rostechnologii and Siemens JV with Voith Hydro 17 construction companies Russia 63 HPP 3 GeoTPP 1 TPP 1 WPP Abroad 1 HPP (Armenia) JSC ESK Rushydro JSC Krasnoyarskenergosbyt JSC RESK JSC Chuvashskaya Energosbitovaya Kompania 2

RusHydro Today Russia s largest generating company and one of the world s largest publicly traded generating company, with capacity of more than 26 GW and market capitalisation of over USD 15bln

3 RusHydro Today Russia s largest generating company and one of the world s largest publicly traded generating company, with capacity of more than 26 GW and market capitalisation of over USD 15bln Shareholding structure * - incl % GDR holders Main statistics Installed capacity 26.1 GW Power plants 68 Electricity output 72,497 mln kwh Revenue 418,003 mln RUR EBITDA 61,575 mln RUR Market capitalisation 15,503 mln USD RusHydro capacity vs. hydro capacities of global peers (GW) RusHydro vs. GenCos in Russia (GW) 3

4 RusHydro s Geography Armenia 4

5 RusHydro Projects Using RES Kislogubskaya TPP (1.5 MW) Severnaya TPP (12.0 MW) The Murmansk region Objective: to construct an industrial plant using tidal energy Target: to develop tidal energy usage and float unit construction technologies Mezenskaya TPP (8.0 GW) Small HPPs of Altai region (24.0 MW) Nizhnaya Volga Wind Farm (1.0 GW) The Volgograd region Objective: to construct a large wind farm in the Central Region of the Russian Federation Eshkakonskaya Small HPP (0.6 MW) Small HPPs of the Northern Caucasus region (36.0 MW) Mutnovskaya-2 GeoPP (50.0 MW) Verhne Mutnovskaya GeoPP (12.0 MW) Mutnovskaya GeoPP (50.0 MW) Pauzhetskaya GeoPP (12.0 MW) Binary power unit at Pauzhetskaya GeoPP (2.5 MW) 5

6 Growth Perspectives in Russia According to the decision of the Government of the Russian Federation 52,8% of shares JSC «RAO Energy System of East» were transferred to JSC RusHydro Advantages: Control of the energy units, which are located in the Far East federal district (36% of the territory of the Russian Federation) Increase of the company s installed capacity up to 34.8 GW; Ability to export on the markets of the Asia Pacific Region; The possibility of attracting the world s largest companies to participate in investment program of the Holding Company, including the area of thermal generation. 6

7 International Cooperation Iceland Agreement with Reykjavik Geothermal on cooperation in geothermal power Canada Agreement with HydroQuebec on cooperation in hydropower France Agreement with Alstom on establishment of JV for localisation of production of hydropower generating equipment in Russia Finland Agreement with Poyry on cooperation in hydropower and RES Germany Agreement with SC Russian Technologies and Siemens AG on establishment of JV for cooperation in wind energy sector, incl. localisation of equipment production in Russia for WPP Agreement with EDF on prospective cooperation in hydropower and RES Austria Agreement with Andritz Hydro on cooperation in hydropower Agreement with Voith Hydro on establishment of JV for production of hydropower equipment in Russia Italy Agreement with ENEL on cooperation in hydropower and RES Bolivia Agreement with ENDE on cooperation in hydropower and RES Argentina Agreement with ENARSA on cooperation in hydropower and RES Chile Pilot project of wave power plant construction Ukraine Agreement with Ukrhydroenergy on cooperation in hydropower Armenia Owns Sevan-Hrazdan HPPs (561 МW) India Agreement with NHPC on cooperation in hydropower China Agreement with Three Gorges Corporation on cooperation in hydropower and RES Agreement with State Grid on strategic cooperation in hydropower and RES 7

JSC Institute Hydroporoject The largest design institute in Russia Inside the

designed 250 hydropower plants in Russia, Baltic states and SIC (total

hydropower plants in 45 countries (total capacity more than 26 GW) The

8 JSC Institute Hydroporoject The largest design institute in Russia Inside the top ten engineering companies in the world Founded in 1930 Successfully designed 250 hydropower plants in Russia, Baltic states and SIC (total capacity of 65 GW and annual energy generation of 230 TWh) More than 50 hydropower plants in 45 countries (total capacity more than 26 GW) The largest archives of implemented projects (more than 400 projects) Cooperation deals in 49 countries 8

9 Services of Institute Hydroporoject Comprehensive site investigations for construction of large projects in the areas of complicated environment conditions Design of the full scope of all lowcurrent systems (signaling, communication, security systems, Video follow-up systems, information technologies systems) Preparation of O&M Manuals of hydraulic structures and equipment Designing of dams, more than 250 m in height, in the areas of high seismic intensity Designing of shaft spillways with flow whirling and height drop of more than 200 m Fish protection designs and ecological documentation Analysis of power market and the place the hydropower and proposed projects occupy in the power market Optimization of engineering solutions in designing hydropower plants, pumped-storage plants and renewable power source installations Assessment of economic effectiveness of investments in hydropower projects, development of renewable power sources and water management projects Designing of automated process control systems Designing of transmission lines 3-D laser scanning of project 9

JSC «NIIES» JSC NIIES is the leading Russian R&D center in the field of renewable sources of energy Presently JSC NIIES is the leading organization in Russian Federation in several scientific and

10 JSC «NIIES» JSC NIIES is the leading Russian R&D center in the field of renewable sources of energy Presently JSC NIIES is the leading organization in Russian Federation in several scientific and technological areas, among which are: advanced studies in low-head hydro, tidal, wave and wind power engineering; hydraulic researches, including physical and numerical simulation; production and development of structure diagnostic devices and automatic informational-diagnostic inspection systems of power plant structures and equipment 10

11 Orthogonal Turbines: Unique Design, Unique Characteristics Orthogonal turbine Main advantages of orthogonal hydro power unit Rotation direction and characteristics of these turbines do not depend on flow direction Efficiency of orthogonal turbines exceeds 75% Design of turbine is simple and production-friendly It is possible to use multi-storied power units, consisting of several turbines on the same shaft Large throughput capacity of turbine in idle mode All rights on design and use of orthogonal turbines are reserved by several patents of the Russia Currently orthogonal turbine is being tested on tidal power plant Kislogubskaya in Russia 11

Tidal power plant Floating reinforced-concrete unit Generator Step-up gear Turbine shaft Runner Turbine penstocks Use of orthogonal turbines and floating method of

12 Tidal power plant Floating reinforced-concrete unit Generator Step-up gear Turbine shaft Runner Turbine penstocks Use of orthogonal turbines and floating method of construction will result in: Maximal efficiency of hydro power unit Decrease of the cost of installed kw favorable ecological conditions in TPP basin Lower bearing 12

13 Mezen tidal power plant in Russia Dam length: 87 km Number of power units: 2000 Plant capacity: 8000 MW Generated power: 39.2 TWh/year Power supply per plant capacity: 4900 hours/year 13

power plant, making it 24 MW Estimated generated power of this power plant is 40 000 000

14 Severnaya tidal power plant in Russia Installed capacity of tidal power plant 12 MW Installation of wave power units will effectively double total installed capacity of the power plant, making it 24 MW Estimated generated power of this power plant is kwh/year Vertical cross-section of TPP powerhouse Combination of wave and tidal power plants 14

Wave power plant Main characteristics of a

15 Wave power plant Main characteristics of a wave farm: number of wave power devices(by1 km 2 ) -900 installed capacity(by1 km 2 ) with wave power potential of 40 kw/m 27 MW capacity factor 0.4 annual generated power 94,5 millions kwh cost of wave power devices 3000$/kW 15

Chile: Unique Potential for Tidal and Wave Energy Development Chile is one of the countries with the highest energy potential of sea waves due to the following: Grand extension of sea coast line

16 Chile: Unique Potential for Tidal and Wave Energy Development Chile is one of the countries with the highest energy potential of sea waves due to the following: Grand extension of sea coast line Energy of seawaves can reach 70 kw per meter Stable wave climate over the year It is estimated that usage of energy of sea waves can supply 24% of Chile needs in electricity in winter and 26% in summer 16

17 Thank You for Attention! 17