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Unidad 15 Introduction to solar PV energy - Dimensioning - Alberto Escudero-Pascual, IT+46 (cc) Creative Commons Share-Alike Non Commercial Attribution.

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Presentation on theme: "Unidad 15 Introduction to solar PV energy - Dimensioning - Alberto Escudero-Pascual, IT+46 (cc) Creative Commons Share-Alike Non Commercial Attribution."— Presentation transcript:

1 Unidad 15 Introduction to solar PV energy - Dimensioning - Alberto Escudero-Pascual, IT+46 (cc) Creative Commons Share-Alike Non Commercial Attribution 2.5 Sweden

2 The power of the sun - G Global Irradiation 0.29-0.4 um Instantaneous value (Power) W/m 2 Units ✔ Energy: Wh/m 2 ✔ Energy: J/m 2 ✔ Solar Peak Hours Conversions ✔ 1 wh =3600 J Irradiance (W) vs Irradiation (Wh)

3 G Irradiance and irradiation values stand for area densities, i.e.no subscripts are used to indicate the surface area. All symbols refer to horizontal planes; for a tilted plane, the slope ß and the plane azimuth (Alpha) are added in brackets. Subscript 0 stands for extraterrestrial or astronomical. Subscript h stands for hourly and subcript d for daily.

4 The figures A nearly constant 1.36 kilowatts per square meter (the solar constant) of solar radiant power impinges on the earth's outer atmosphere. Approximately 70% of this extraterrestrial radiation makes it through our atmosphere on a clear day. Irradiance at ground level regularly exceeds 1,000 w/m2. In some mountain areas, readings over 1,200 w/m2 are often recorded.

5 Type of systems Grid-Intertied solar-electric system: on grid Grid-Intertied solar-electric system with battery backup Off-Grid solar-electric system with battery backup (Telcenter A) Grid-Intertied solar-electric system with battery and generator backup (Telecenter B)

6 Type of load AC load DC load Direct pump (no batteries)

7 Components (I) PV PV Mounts Array PV - DC Disconnect Charge Controller (Regulator) Battery

8 Components (II) System Meter Main DC Disconnect Inverter AC Breaker Panel (AC Disconnect) Kwh meter (Utility Meter)

9 PV Panel Isc Voc Ipmax, Vpmax (Maximum Power) Voltage is enforced by the battery Form Factor (Pmax/Isc.Vsc) 0.7-0.8

10 PV Panel Performance: Pmax/Psun ~ 10%-13% Normalized conditions 1kW/m 2 sea level 25 C Wp (Peak Power)

11 Testing the panels Testing the panels (annex)

12 PV Panel Operation: ✔ Ipmax, Vmax ✔ Efficency Lost: Pmax – 5% Array ✔ Same panels ✔ Serial = We add V ✔ Parallel = We get more I

13 Battery Serial elements: 2 V Models: 12 V, 24 V and 48 V Car batteries vs Deep Cycle Batteries ✔ 1.2 to 1.28 (add water)

14 Deep Cycle Batteries Nickel-Cadmium (vs) Lead-Acid Maintenance vs Cost

15 Sun and Battery Cycles Daily Seasons Weather

16 Battery Status Over charged ✔ Gas, oxidation of positive eletrod ✔ Reduces acid stratification ✔ Controlled 2.35 – 2.4 V ✔ Role of regulator Over discharged ✔ Lower limit 1.85 ✔ PbSo4 Lead Sulfate

17 Battery Parameters Vn Nominal Voltage Cn Nominal Capacity Ah, Wh C100 SOC vs DOD DOD 70% and life of the battery Cusable = Cn * MDR (maximum discharge rate)

18 Temp and Batteries Capacity 1%/C Low temperatures – Battery charge to avoid freeze (reduce the max. discharge rate)

19 Loads Role of low power devices Energy Demands ✔ Estimation ✔ Forecasting User Habits

20 Regulator Cuts at 2.45 V (battery state) Maximum current (at least 20% more than the PV) Operating tension

21 Regulator Serial (can disconnect) vs Shunt (NO!) Charge Controller ✔ Senses Temp of Batteries Battery Temperature Compensation (BTC) ✔ Can lower the V of the panels to increase the I ✔ PWM (Pulse Width Modulation) ✔ Measures and cuts (LVD) Low voltage disconnect ✔ Maximum Power Point Tracking

22 Inverter Converter DC/AC DC/DC (pumps, to start them) Sin wave vs modified sin wave Be Careful not all equipment can handle a modified sin wave inverter! Protection (sc) Efficiency

23 Inverter Parameters Protection (against sc) Efficiency > 70%

24 Calculation Method: Worse month Reliable: how many days without sun? ✔ Autonomy days (N) ✔ Nominal Voltage? More than 3 KW = 48 V

25 Worse Month What is the worse month? We need to know the energy demands (DC + AC) and the energy available What PV array angle is optimal?

26 Orientation Towards the equator Tolerance of 20 degrees (alpha) Angle (ß): ✔ |L| + 10 = winter ✔ |L| = 0 ✔ |L| - 10 = summer Angle > 20 degrees (dust)

27 G(ß,r,Lat) Daily or monthly average energy at angle B G(B) = f(G(0)) f (B) = AG(0) + B(G(0)) 2 A depends on r=0.2 and ß B depends on Latitude and ß We can always use a simulation tool to get the values!

28 Imax (Loads) Et = E(AC) + E (DC) (Ah) (electric charge) Ah/day - Ah/period G(B) = Kwh/m2 day Imax = Et/G(ß) Example ✔ Nigeria = 3.5 – 4 Kwh.m2 day ✔ Et = 100 Ah ✔ Imax = 25 A/Kw * m2

29 Number of par. panels? Npp = Immax/Ipmax Example ✔ 25 A/kw.m2 / 5 A/kw.m2 = 5 Units

30 Capacity of Battery? Normally measure in Ah (electric charge) Serie vs Parallel Example: ✔ C100 = 200 Ah ✔ Usable = 200 Ah x discharge depth (70%) = 140 Ah Dimensioning ✔ Capacity = N. Et (Ah) * 1.2

31 Regulator and Inverter Power Regulator ✔ 20% Imax x Npp Inverter ✔ Performance at 70% of the load

32 Conclusion Multi-variable system Simulation: Worst month Set pre-conditions first Measure your load ✔ Are they any possible energy savings? Be careful with the units!

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