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USES OF SOLAR ENERGY Dimitar Dimitrov Associate Professor Faculty of Electrical Engineering and Information Technologies
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ORIGIN OF RENEWABLES
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HOW MUCH SOLAR ENERGY DO WE HAVE
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SOLAR RADIATION IN EUROPE
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USING THE SOLAR ENERGY Solar thermal systems Solar electric systems
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EFFICIENCY OF SOLAR THERMAL COLLECTORS
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PASSIVE SYSTEM FOR WATER HEATING Systems with thermosyphon
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WATER HEATING SYSTEM WITH PUMPING
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SYSTEM FOR SPACE HEATING
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INSTALLED CAPACITIES OF SOLAR COLLECTORS
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INSTALLED CAPACITIES OF COLLECTORS (per capita)
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DISTRIBUTI ON BY APPLICATIO N
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SOLAR COLLECTOR 'S MARKET GROWTH
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PHOTOVOLTAIC (PV) SYSTEMS PV systems directly convert the solar energy into electricity ADVANTAGES: –can operate in almost any location –don't pollute –don't make noise –highly reliable –modular concept etc. ADVANTAGES: –Expensive cost of electricity –Output variability (day – night, seasonally..) –houligasm (steal, broke)...
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Types of PV cells monocrystalline polycrystalline amorphous thin films etc. PHOTOVOLTAIC CELL The „hearth“ of PV generators is a PV cell
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PV cell PV panel PV generatorPV module ELEMENTS OF A PV GENERATOR
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STAND-ALONE PV SYSTEMS ~ G DC ~ – AC
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ECONOMIC VIABILITY OD STAND- ALONE PV SYSTEMS
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GRID- CONNECTED PV SYSTEMS DC ~ – AC kWh
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Governments offer incentives in order to encourage the PV industry to achieve the economies of scale. Incentives involve: tax decreasing, soft credits, grants, feed-in tariffs etc. Such policies are implemented to: promote national or territorial energy independence, high tech job creation, reduction of carbon dioxide emissions, obtain political benefits etc. Feed-in tariffs for PV systems in RM are: for PV systems ≤ 50 kW, 0,16 €/kWh, for PV systems > 50 kW, 0,12 €/kWh. PV INCENTIVES
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GRID-CONNECTED VS. OFF-GRID (STAND-ALONE)
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DISTRIBUTION OF PV INSTALLATIONS
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EVOLUTION OF PV MODULE PRICES [per/Wp]
![EVOLUTION OF PV MODULE PRICES [per/Wp]](http://images.slideplayer.com/24/7498789/slides/slide_23.jpg "EVOLUTION OF PV MODULE PRICES [per/Wp]")
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PV INDUSTRY GROWTH: corrected forecast
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CELL EFFICIENCES
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CELL TECHNOLOGY SHARES
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OPERATIONAL PRINCIPES OF PV CELLS
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CURRENT-VOLTAGE CHARACTERISTICS
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CATALOGUE DATA OF A PV MODULE
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I-V CHARACTERISTICS OF A PV MODULE
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I-V CHARACTERISTIC MEARUREMENTS
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CHARACTERISTICS OF A PV GENERATOR IN REAL CONDITIONS PV generator current [A] PV generator voltage [V] measured data model theoretical model real
![CHARACTERISTICS OF A PV GENERATOR IN REAL CONDITIONS PV generator current [A] PV generator voltage [V] measured data model theoretical model real](http://images.slideplayer.com/24/7498789/slides/slide_32.jpg "CHARACTERISTICS OF A PV GENERATOR IN REAL CONDITIONS PV generator current [A] PV generator voltage [V] measured data model theoretical model real")
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MEASURED DATA AND THE MODEL PV generator voltage [V] PV generator current [A]
![MEASURED DATA AND THE MODEL PV generator voltage [V] PV generator current [A]](http://images.slideplayer.com/24/7498789/slides/slide_33.jpg "MEASURED DATA AND THE MODEL PV generator voltage [V] PV generator current [A]")
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SPECTRAL SENSITIVITY OF THE PV CELLS
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BALANCE OF SYSTEM (BOS) COMPONENTS
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TRACKING PANELS
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STAND-ALONE PV SYSTEM
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GRID-CONNECTED PV SYSTEM
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CAD LAYOUT OF A PV GENETRATOR
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TRANSPOSITION FACTOR
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TRANSPOSITION WITH TRACKING
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SOLAR "MOVEMENT" AND SHADING
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BASIC PERFORMACE S OF A PV GENERATOR MONTH H 0 [kWh/m²] T a,sr [°C] H β [kWh/m²] Е out [kWh] η tot [%] jan560,0967078210,9 feb722,11077908610,9 mar1136,11349613210,6 apr14710,415811564310,8 may18815,519113590010,5 jun20019,419813809010,3 jul21021,820914392710,1 aug18921,619913642210,1 sep14217,216011308710,5 oct10611,815110600410,4 nov665,91117971510,6 dec471,8926554210,5 TOTAL/ AVERAGE 153511,11803128033010,5
![BASIC PERFORMACE S OF A PV GENERATOR MONTH H 0 [kWh/m²] T a,sr [°C] H β [kWh/m²] Е out [kWh] η tot [%] jan560, ,9 feb722, ,9 mar1136, ,6 apr14710, ,8 may18815, ,5 jun20019, ,3 jul21021, ,1 aug18921, ,1 sep14217, ,5 oct10611, ,4 nov665, ,6 dec471, ,5 TOTAL/ AVERAGE , ,5](http://images.slideplayer.com/24/7498789/slides/slide_43.jpg "BASIC PERFORMACE S OF A PV GENERATOR MONTH H 0 [kWh/m²] T a,sr [°C] H β [kWh/m²] Е out [kWh] η tot [%] jan560, ,9 feb722, ,9 mar1136, ,6 apr14710, ,8 may18815, ,5 jun20019, ,3 jul21021, ,1 aug18921, ,1 sep14217, ,5 oct10611, ,4 nov665, ,6 dec471, ,5 TOTAL/ AVERAGE , ,5")
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AREA SIZE OF A PV GENERATOR
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HYBRID PV SYSTEM – ~ ~ GS DUMP LOAD LOADS 220 V 50 Hz PV GENERATOR MPPT BATTERY CHARGE CONTROLLER BATTERY INVERTER BATTERY CHARGER DIESEL GENSET
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WHY TO USE A HYBRID PV SYSTEM? PV generator AdvantagesDisadvantages Eco acceptable Reliable energy source Minimal o&m High investment Daily and seasonal variations Dependent on meteo conditions Diesel genset AdvantagesDisadvantages Low investment cost Controlled operation (on&off) High o&m costs Need of transport and stocking of fuel Exhaustion gases and noise
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What is achieved by the „hybridization“? Lower investment cost (from a PV system) Lower o&m costs (from a genset only system) Minimal pollution Increased reliability Decreased sensitivity on daily and seasonal meteorological variations but it is required... Proper sizing and designing Energy dispatching
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220 V 50 Hz – ~ ~ GS DUMP LOAD MODE1234 OPERATIONAL MODES OF HPV SYSTEMS 5
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TOTAL COSTS LOAD 15 kWh/day
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ELECTRICITY PRICES AND COMPONENT CAPACITIES Daily load [kWh/day] Electricity price [€/kWh]Power [kW, kVA] Capacity [kWh] PV generator Diesel genset Inverter Battery
![ELECTRICITY PRICES AND COMPONENT CAPACITIES Daily load [kWh/day] Electricity price [€/kWh]Power [kW, kVA] Capacity [kWh] PV generator Diesel genset Inverter Battery](http://images.slideplayer.com/24/7498789/slides/slide_50.jpg "ELECTRICITY PRICES AND COMPONENT CAPACITIES Daily load [kWh/day] Electricity price [€/kWh]Power [kW, kVA] Capacity [kWh] PV generator Diesel genset Inverter Battery")
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GALLERY
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VISIONS
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Thank You!!!
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