[row header=”Why an Inverter, rather than a Generator?”]
Consumption Table
|
Description |
Suggested FCS Solution |
Wattage Approx. |
Suggested Batteries to use |
|
|
1 |
TV for 13 hours |
FCS K3 2400 |
250Watt |
2 x 170 A/H |
|
2 |
TV & DVD plus 1 light for 12 hours |
FCS K3 2400 |
350Watt |
2x 170 A/H |
|
3 |
TV & DVD & DSTV, plus 6 LED lights for 11 hours |
FCS K3 2400 |
600Watt |
2x 170 A/H |
|
4 |
TV & DVD & DSTV plus 6 LED light + Fridge for 5 hours |
FCS K3 2400 |
700Watt |
2x 170 A/H |
|
5 |
TV & DVD & DSTV , plus 10 LED lights+ Fridge for 4.5 hours |
FCS K3 2400 |
800Watt |
2x 170 A/H |
|
6 |
TV & DVD & DSTV, plus 10 LED lights for 6 hours Plus occasional Microwave oven |
FCS K5 4000 |
1200Watt |
4 x 170 A/H |
|
7 |
TV & DVD & DSTV, plus 10 LED lights for 6 hours Plus occasional Microwave oven Electric Gate motor backup power |
FCS K5 4000 |
1200Watt |
4 x 170 A/H |
|
8 |
TV & DVD & DSTV, plus 10 LED lights for 6 hours Plus occasional Microwave oven Electric Gate motor backup power |
FCS K5 4000 |
2000Watt |
4 x 170 A/h depend on time duration |
|
9 |
TV & DVD & DSTV , plus 10 LED lights for 5 hours Plus 2x computers for the same time |
FCS K5 4000 |
1500Watt |
4 x 170 A/H |
|
10 |
More powerful house hold setup, such as 10 LED lights, TV, & DSTV, Washing machine 2.5 hours |
FCS K5 4000 |
3000Watt |
4 x 170 A/H |
|
11 |
300 W for 12 hours |
FCS K3 2400 |
300Watt |
2 x 170 A/H |
|
12 |
900 Watt for 4 hours |
FCS K3 2400 |
900Watt |
2x 170 A/H |
|
13 |
1500 Watt for 5 hours |
FCS K5 4000 |
1500Watt |
4 x 170 A/H |
|
14 |
2000 Watt for 3.5 hours |
FCS K5 4000 |
2000Watt |
4 x 170A/H |
Inverter vs Generator Table
***ALL CALCULATIONS ARE ASSUMPTIONS AND MAY VARY
| Petrol Gernerator 5kva | Inverter 5 Kva ( FCS K5-4000 ) | |
| Brand | Honda petrol Gen | Full circle solar inverter |
| Output | 4000w | 4000w |
| Energy source | Petrol | Battery bank |
| Capacity | 10 litres | 680 A/hr (4x 170 ah 12v) |
| Max output | 5000w | 8000w |
| Consumption | 2.5 ltr/Hr | 166 A/h |
| At Start | 10 ltr 100% | 54v 100% |
| At end | 0 Ltr 0 % | 46v 10% |
| Internal losses | N/A | 1 Kw/h |
| Conversion eff | N/a | 91% |
| Recharge time | N/A | 14 Hrs |
| Load 50% | 2000w | 2000w |
| Total in 4 Hrs | 8000w | 8000w |
| Run Time @ 50% | 4 hrs | 3.5 Hrs |
| Power produced | 8 kwh | 7 kwh |
| Cost | R12.89/l petrol x 10 ltr = R128.90 | 8kva x R1.66/Kwh =R13.28 |
| Cost per Kw/h | 8Kwh/R128.90 = R16.11 | 7 Kwh/13.28 = R1.89 |
| Usage 3 hrs/day/year | 3hrsx365days = 1095 hrs | 3hrsx365days = 1095 hrs |
| Life span on Gen/Bat | 500hrs to 1500 hrs Average | 10 years or 1000 cycles= 3500 Hrs |
| Cost of Generator/Inv | R 9 850.00 | R 12 500 |
| Cost of Batteries | N/a | R3200 x 4 = R12800 |
| Inital outlay | R 9 850 | R12500+R12800 = R25300 |
| Service interval | 150 hrs | N/a |
| Cost to service | R 350.00 | N/a |
| Total kwh produced/Yr | 1095 hrs x 2kwh = 2190Kwh | 1095 hrs x 2kwh = 2190Kwh |
| Total Running cost/Yr | 2190 Kwh x 16.11 = R35250.90 | 2190 Kwh x R1.89 = R4139.1 |
| Noise db | >100db | Silent |
| 3 Year running cost | ||
| Generator/Inverter cost | Twice R9850x2 = R19700 | R 12 500 |
| Baterry cost | N/a | R3200x4 = R12800 |
| Replace Batteries | N/a | After 10 years or 3500hrs full cycle |
| Replace inverter | N/a | N/a |
| Service costs | R350 x20 services = R7000 | N/a |
| Total capital cost | R19700+7000 = R26700 | R 25 300.00 |
| Total cost for 6570 Kwh | 6570 Kwhx R16.11 =R105842.70 | 6570 Kwhx R1.89 = R12417.30 |
| Total | R105842.70+R26700 | R12417.30 + R25300.00 |
| Cost from eskom | N/a | R 12 417.30 |
| R132542.7 – eskom | N/a | |
| R132542.7 – R12417.30 | N/a | |
| R 120 125.40 | R 37 717.30 |