Grid Operational Health
87
/ 100
Generators
3/3 Online
Frequency
50.1 Hz
Power Quality
Good
Click for details →
Savings Potential
$2,950
/ month
Quick Wins
3 Items
Captured
32%
Remaining
$2,006
Click for details →
Financial Performance
72
/ 100
Today's Cost
$4,920
Efficiency
4.15 kWh/L
vs Target
+3.8%
Click for details →
Generation
1.35
MW
Load
1.25
MW
Solar
85
kW
Frequency
50.1
Hz
Voltage
400
V
Burn Rate
176
L/hr
Top Recommendations AI BETA
Powered by proprietary AI engine with embedded grid engineering expertise
1. Increase Solar Utilization
Solar hosting capacity analysis shows 40kW additional solar can be integrated. Current penetration is 6.3% - optimal target is 15-20%.
💰 Est. Savings: $3,794/month
2. Optimize Generator Loading
Genset 3 is running at 45% load (below optimal 65-85% range). Consider redistributing load or scheduling maintenance during low-demand periods.
💰 Est. Savings: $1,200/month
3. Address Feeder 4 Imbalance
Feeder 4 shows 7.2% phase imbalance causing 2.3% additional losses. Rebalancing loads across phases can reduce technical losses.
💰 Est. Savings: $750/month
Live Grid Topology
Real-time power flow across the island network
● Normal
● Warning
● Critical
Powerhouse
1.35 MW
Online
Solar PV
85 kW
6.3% of load
F1 Harbor
185 kW
2.0% drop
F2 Commercial
210 kW
2.8% drop
F3 Residential
165 kW
1.5% drop
F4 Industrial
245 kW
4.5% drop ⚠️
F5 Residential S
195 kW
2.5% drop
F6 Resort
175 kW
1.8% drop
Detailed Analytics
Live System Monitor
Real-time generation and load trending
● LIVE
Updated: --:--:--
Generation
1.35
MW
Load
1.25
MW
Reserve
0.10
MW
Power Factor
0.95
PF
Frequency
50.1
Hz
Voltage
400
V
Efficiency
4.15
kWh/L
💡 Live Insight
Generation is tracking load well with minimal spinning reserve waste. Current efficiency of 4.15 kWh/L is 3.8% above the baseline target.
⚡ Power Quality
Click to expand • Frequency stability & voltage monitoring
Phase Imbalance
4.2%
Limit: <3%
Frequency Deviation
±0.1 Hz
Limit: ±0.5 Hz
Power Factor
0.95
Target: >0.9
Frequency Stability
Mean: 50.0 Hz
Min: 49.9 Hz
Max: 50.1 Hz
Phase Voltages
📍 Main Bus (MV Switchgear)
● Phase A: 231V
● Phase B: 229V
● Phase C: 230V
⚠️ Power Quality Alert
Phase imbalance of 4.2% exceeds the 3% threshold. Consider load rebalancing on Feeder 4 (highest imbalance contributor). This could improve efficiency by 1.5% and reduce transformer heating.
Generation Mix
Current source breakdown
Diesel Gensets
1.25 MW
92%
Solar PV
0.10 MW
8%
Total Generation
1.35 MW
Generator Status
Real-time loading
Genset 1
ONLINE
75%
450 kW
Genset 2
ONLINE
85%
510 kW
Genset 3
LOW LOAD
48%
290 kW
Recommendations
Real-time optimization suggestions
Optimize Generator Loading
Genset 3 is operating at 48% load (below optimal 65-85% range). Consider transferring 120kW to Genset 3 from Genset 2 to improve overall efficiency.
💰 Est. Savings: $45/day
📈 +2.1% Efficiency
Phase Imbalance Detected
Current imbalance of 4.2% on Main Bus. Feeder 4 contributing 60% of imbalance. Redistribute single-phase loads or add capacitor bank on Phase B.
🔧 Action Required
📉 -1.5% Loss Reduction
Solar Ramp Prediction
Cloud cover expected in 45 minutes. Prepare to increase diesel generation by ~80kW to compensate for solar dip. Pre-warm Genset 3 if extended coverage expected.
🌤️ Weather Advisory
Fleet Status
3/3
● All Online
Total Output
1.25
MW (Diesel)
Fleet Efficiency
4.12
kWh/L avg
Fuel Burn Rate
176
L/hr current
Generator Fleet Status
Real-time monitoring with operational parameters
● Optimal (65-85%)
● Suboptimal
Genset 1
CAT 3512B • 600 kVA
Load
75%
Output
450 kW
Efficiency
4.20 kWh/L
Run Hours
12,450 hrs
Fuel Rate
107 L/hr
Health Indicators
Coolant
82°C ✓
Oil Press
4.2 bar ✓
Voltage
400V ✓
Genset 2
CAT 3512B • 600 kVA
Load
85%
Output
510 kW
Efficiency
4.30 kWh/L
Run Hours
10,230 hrs
Fuel Rate
119 L/hr
Health Indicators
Coolant
85°C ✓
Oil Press
4.0 bar ✓
Voltage
401V ✓
Genset 3
CAT 3508 • 600 kVA
Load
45%
Output
280 kW
Efficiency
3.85 kWh/L
Run Hours
8,750 hrs
Fuel Rate
73 L/hr
Health Indicators
Coolant
78°C ✓
Oil Press
3.8 bar ✓
Voltage
399V ✓
Current Generation Mix
1.35 MW
Efficiency Comparison
kWh generated per liter of fuel
💡 Efficiency Insight
Genset 2 leads at 4.30 kWh/L. Genset 3's low load (45%) reduces efficiency by 10%. Redistributing 120kW would improve fleet efficiency by 2.1%.
Maintenance Schedule
Upcoming service based on run hours
Genset 1 - Oil Change
Due Soon
Current: 12,450 hrs
Service: 12,500 hrs
⚠️ 50 hours remaining (~2 days)
Genset 2 - Oil Change
OK
Current: 10,230 hrs
Service: 12,500 hrs
2,270 hours remaining (~95 days)
Genset 3 - Major Overhaul
Scheduled
Current: 8,750 hrs
Service: 10,000 hrs
1,250 hours remaining (~52 days)
Today's Fuel Cost by Generator
Cost attribution and efficiency metrics
| Generator | Run Hours | Fuel (L) | Energy (kWh) | Efficiency | Cost | $/kWh |
|---|---|---|---|---|---|---|
| ● Genset 1 | 18.5 hrs | 1,420 L | 5,964 kWh | 4.20 kWh/L | $1,647 | $0.276 |
| ● Genset 2 | 20.0 hrs | 1,580 L | 6,794 kWh | 4.30 kWh/L | $1,833 | $0.270 |
| ● Genset 3 | 16.0 hrs | 1,250 L | 4,457 kWh | 3.85 kWh/L ⚠️ | $1,450 | $0.325 ⚠️ |
| Total (Diesel) | 54.5 hrs | 4,250 L | 17,215 kWh | 4.05 kWh/L | $4,930 | $0.286 |
Recommendations
Powered by proprietary AI with grid engineering expertise
Redistribute Load to Genset 3
Genset 3 at 45% load has 10% lower efficiency than optimal. Transfer 120kW from Genset 2 to bring Genset 3 to 65% load. This balances the fleet and improves efficiency.
💰 Est. Savings: $1,200/month
📈 +2.1% Fleet Efficiency
Schedule Genset 1 Maintenance
Oil change due in 50 run hours (~2 days). Schedule during overnight low-demand period (2-5 AM) when Gensets 2 & 3 can handle full load.
⏰ Optimal Window: Tomorrow 2:00-5:00 AM
Total Feeders
6
5 Normal • 1 Warning
Total Load
1.18
MW distributed
Avg Voltage Drop
2.5%
within limits
Technical Losses
4.2%
~50 kW
Loss Cost
$156
per day
Feeder Performance Details
Real-time electrical parameters by feeder
● V-Drop <3%
● V-Drop 3-5%
● V-Drop >5%
| Feeder | Load (kW) | Current (A) | Bus V | End V | V-Drop | Imbalance | PF | Status |
|---|---|---|---|---|---|---|---|---|
| F1 - Harbor 🏗️ Industrial/Port |
185 | 284 | 400 V | 392 V | 2.0% | 1.8% | 0.94 | Normal |
| F2 - Commercial 🏪 Shops/Offices |
210 | 330 | 400 V | 389 V | 2.8% | 2.1% | 0.92 | Normal |
| F3 - Residential N 🏠 North Housing |
165 | 248 | 400 V | 394 V | 1.5% | 1.2% | 0.96 | Normal |
| F4 - Industrial 🏭 Factory Zone |
245 | 402 | 400 V | 382 V | 4.5% ⚠️ | 7.2% ⚠️ | 0.88 | Warning |
| F5 - Residential S 🏘️ South Housing |
195 | 282 | 400 V | 390 V | 2.5% | 1.5% | 0.95 | Normal |
| F6 - Resort 🏨 Tourism |
175 | 261 | 400 V | 393 V | 1.8% | 0.9% | 0.97 | Normal |
Phase Balance Analysis
Current distribution across phases
F4 - Industrial ⚠️
7.2% Imbalance
Phase A
142 A
Phase B
98 A
Phase C
114 A
Phase B underloaded by 31% relative to Phase A
F6 - Resort ✓
0.9% Imbalance
Phase A
85 A
Phase B
84 A
Phase C
84 A
Well balanced - optimal performance
Technical Loss Breakdown
Power losses by feeder and cause
F4 - Industrial
Imbalance + Cable losses
18.2 kW
$57/day
F2 - Commercial
Cable resistance
9.8 kW
$31/day
F5 - Residential S
Cable resistance
8.4 kW
$26/day
Other Feeders
Combined
13.6 kW
$42/day
Total Technical Losses
50 kW
$156/day
Voltage Drop Profile
Voltage at different points along each feeder
Recommendations
Powered by proprietary AI with grid engineering expertise
Critical: Rebalance F4 Industrial Feeder
7.2% phase imbalance is causing 3.2 kW additional I²R losses and potential equipment damage. Audit single-phase loads and redistribute: Move ~15A of single-phase load from Phase A to Phase B.
💰 Est. Savings: $750/month
⚡ Reduce losses by 3.2 kW
Improve F4 Power Factor
Power factor of 0.88 on F4 Industrial is below optimal. Install 30 kVAR capacitor bank to improve PF to 0.95, reducing current by ~8% and cable losses.
💰 Est. Savings: $320/month
📊 Payback: 8 months
Consider F4 Conductor Upgrade
With 4.5% voltage drop, F4 is near the 5% limit. If load growth continues, consider upgrading from 95mm² to 150mm² aluminum to reduce losses and provide headroom.
📋 Plan for next budget cycle
💰 ROI: 3 years
Current Output
85
kW
Installed Capacity
110
kWp
Today's Generation
425
kWh
Performance Ratio
82%
vs ideal
Today's Savings
$118
diesel avoided
☀️ Today's Solar Generation
Real-time PV output curve
Peak: 98 kW at 12:45 PM
Performance Metrics
System efficiency indicators
Capacity Factor
77%
Specific Yield
3.86 kWh/kWp
Today • Target: 4.0 kWh/kWp
Grid Penetration
6.3%
Safe hosting: up to 20%
Diesel Displaced
102 L
Today @ 4.15 kWh/L efficiency
Inverter Status
String inverter performance
Inverter 1
ONLINE
42.5 kW
DC Voltage
645 V
Efficiency
97.2%
Temperature
42°C
Today
212 kWh
Inverter 2
ONLINE
42.5 kW
DC Voltage
648 V
Efficiency
97.4%
Temperature
41°C
Today
213 kWh
🌱 Environmental Impact
Carbon offset and sustainability metrics
CO₂ Avoided Today
275
kg CO₂
MTD CO₂ Avoided
8.2
tonnes
YTD Generation
142
MWh
Equivalent Trees
186
planted/year
💰 Financial Summary
Savings and ROI tracking
Today's Savings
$118
MTD Savings
$3,540
YTD Savings
$42,600
System LCOE
$0.08
/kWh
Payback Progress
System Cost: $85,000 • Recovered: $68,400
80%
Est. full payback: 4 months remaining
🔋 Hosting Capacity Analysis
Additional solar potential
Available Capacity
+40 kW
Grid analysis confirms safe integration of additional 40kW solar without voltage or stability issues.
Expansion Benefits
Additional Monthly Savings
$3,794
New Penetration Level
~9.2%
Est. Installation Cost
$36,260
Payback Period
~10 months
Recommendations
Powered by proprietary AI with grid engineering expertise
Expand Solar Capacity by 40kW
Current penetration of 6.3% is well below safe limits. Adding 40kW would increase renewable share to ~9%, save $3,794/month in diesel, and pay back in under a year.
💰 Est. Savings: $3,794/month
🌱 -635 kg CO₂/month
Schedule Panel Cleaning
Performance ratio of 82% suggests ~3% soiling losses. Professional cleaning could recover 3-4 kW output. Recommended frequency: bi-weekly in dusty season.
📈 +3% Performance Recovery
💰 ~$35/month additional savings
Consider Battery Storage (Future)
With expanded solar, a 50kWh battery could enable peak shaving and evening solar utilization. Evaluate after solar expansion is complete.
📋 Feasibility study recommended
⏰ Timeline: 12-18 months
Today's Cost
$4,920
+3.8% vs target
Cost per kWh
$0.286
blended rate
Fuel Consumed
4,250
Liters today
Fleet Efficiency
4.15
kWh/L (+3.8%)
Solar Savings
$118
today
Cost Breakdown Waterfall
What's driving today's costs
Base Fuel Cost
Fuel Price Premium
Island premium
Efficiency Loss
G3 low load
Solar Offset
425 kWh free
Net Daily Cost
$4,920
Cost by Source
Generation cost attribution
● Genset 1
$1,647
5,964 kWh @ $0.276/kWh
✓ Efficient
● Genset 2
$1,833
6,794 kWh @ $0.270/kWh
✓ Best rate
● Genset 3
$1,450
4,457 kWh @ $0.325/kWh
⚠️ High cost
☀️ Solar
$0
425 kWh @ $0.00/kWh
✓ Free energy
30-Day Cost Trend
Daily cost vs target with moving average
Avg: $4,850/day
Target: $4,740/day
+2.3% over budget
Efficiency by Time of Day
Cost performance patterns
Morning
6AM - 12PM
6AM - 12PM
4.22 kWh/L
$0.272/kWh
Afternoon
12PM - 6PM
12PM - 6PM
4.08 kWh/L
$0.295/kWh
Evening
6PM - 12AM
6PM - 12AM
4.18 kWh/L
$0.278/kWh
Night
12AM - 6AM
12AM - 6AM
4.25 kWh/L
$0.268/kWh
💰 Savings Opportunities
Actionable cost reduction
Generator Loading
$1,200/mo
Optimize G3 loading to 65-85% range
Solar Expansion
$3,794/mo
Add 40kW solar capacity
Loss Reduction
$750/mo
Fix F4 phase imbalance
Total Monthly Potential
$2,940
Recommendations
Powered by proprietary AI with grid engineering expertise
Immediate: Fix Genset 3 Loading
G3 at 45% load costs $0.325/kWh vs $0.270/kWh for optimally loaded G2. This single issue adds ~$108/day ($3,240/month) in unnecessary cost. Redistribute 120kW from G2 to G3.
💰 Est. Savings: $40/day = $1,200/month
Optimize Peak Hour Operations
Afternoon (12-6 PM) shows highest cost per kWh ($0.295). Consider shifting deferrable loads to night hours ($0.268/kWh) and maximizing solar during midday.
💰 Est. Savings: $15/day with load shifting
Fuel Price Sensitivity
At current $1.0/L, each 1% efficiency improvement saves $153/month. Focus on generator loading optimization for highest ROI before considering capital investments.
📋 Priority: Operations → Solar → Infrastructure
Monthly Operations Report
January 2026 • Island Grid Operations
Report Generated
Feb 1, 2026 06:00 AM
Total Generation
532
MWh
Total Cost
$147K
+2.3% vs budget
Avg Cost/kWh
$0.276
blended
Fleet Efficiency
4.18
kWh/L (+4.5%)
Availability
99.2%
uptime
Solar Savings
$3.5K
this month
📊 Operational Status
Key performance indicators
| Generator Availability | 99.2% | ✓ Above target (98%) |
| Peak Demand Met | 1.52 MW | ✓ No outages |
| Frequency Stability | 99.8% | ✓ Within ±0.5Hz |
| Voltage Quality | 98.5% | ✓ Within ±5% |
| Technical Losses | 4.2% | ⚠️ Target: <3.5% |
| Solar Penetration | 6.8% | ↗ +0.5% vs last month |
💰 Financial Summary
Budget vs actual
| Item | Actual | Budget | Variance |
|---|---|---|---|
| Fuel Cost | $143,500 | $140,000 | +$3,500 (2.5%) |
| Maintenance | $2,800 | $3,200 | -$400 (12%) |
| Other OpEx | $1,200 | $1,100 | +$100 |
| Total | $147,500 | $144,300 | +$3,200 (2.2%) |
| Solar Savings | Diesel avoided | -$3,540 | |
Daily Generation Trend
MWh per day this month
Daily Cost Trend
USD per day vs target
Generator Performance Summary
Monthly statistics by unit
| Generator | Run Hours | Generation (MWh) | Fuel (L) | Efficiency | Avg Load | Cost | $/kWh |
|---|---|---|---|---|---|---|---|
| ● Genset 1 | 556 hrs | 178.5 | 42,500 | 4.20 kWh/L | 74% | $49,300 | $0.276 |
| ● Genset 2 | 620 hrs | 210.8 | 49,000 | 4.30 kWh/L | 82% | $56,800 | $0.269 |
| ● Genset 3 | 480 hrs | 129.6 | 33,700 | 3.85 kWh/L ⚠️ | 48% ⚠️ | $39,100 | $0.302 ⚠️ |
| ☀️ Solar PV | 315 hrs | 12.8 | 0 | - | - | $0 | $0.00 |
| TOTAL | 1,656 hrs | 531.7 | 125,200 | 4.18 kWh/L | - | $145,200 | $0.273 |
💰 Savings Tracker
Identified vs captured savings
Total Identified Potential
$2,940/mo
Captured: $944/mo (32%)
Remaining: $1,996/mo
Savings by Initiative
Generator Loading
Potential: $1,200/mo
15%
In progress
Solar Contribution
Actual this month
$944
Active
Feeder Loss Reduction
Potential: $750/mo
0%
Not started
📋 Action Items
Priority tasks for next month
🔴
High Priority
Rebalance Genset 3 loading - currently at 48% avg
Impact: $1,200/mo savings
🟠
Medium Priority
Schedule Genset 1 oil change - due at 12,500 hrs
Due: Within 50 run hours
🟠
Medium Priority
Address F4 phase imbalance (7.2%)
Impact: $750/mo savings
🔵
Planning
Evaluate 40kW solar expansion proposal
Impact: $3,794/mo additional savings
📈 Month-over-Month Comparison
Key metrics vs previous month
Generation
532 MWh
↑ +3.2% vs Dec
Total Cost
$147.5K
↑ +2.8% vs Dec
Efficiency
4.18 kWh/L
↑ +1.2% vs Dec
Solar Share
6.8%
↑ +0.5% vs Dec
Executive Summary
AI generated monthly insights
January 2026 saw stable operations with 99.2% generator availability. Total generation of 532 MWh came at a cost of $147.5K, approximately 2.3% over budget primarily due to suboptimal loading on Genset 3 (averaging 48% vs target 65-85%).
Solar contributed 12.8 MWh (6.8% penetration), saving approximately $3,540 in diesel costs. The primary opportunity for improvement remains generator load balancing, which could save an estimated $1,200/month if addressed.
Technical losses of 4.2% exceed the 3.5% target, with Feeder 4 phase imbalance being the main contributor. Addressing this issue would reduce losses and save approximately $750/month.
Solar contributed 12.8 MWh (6.8% penetration), saving approximately $3,540 in diesel costs. The primary opportunity for improvement remains generator load balancing, which could save an estimated $1,200/month if addressed.
Technical losses of 4.2% exceed the 3.5% target, with Feeder 4 phase imbalance being the main contributor. Addressing this issue would reduce losses and save approximately $750/month.
📌 Key Recommendation
Prioritize Genset 3 load rebalancing this month. This single action represents 41% of total identified savings potential and requires no capital investment - only operational adjustment.