Energy Data Visualizer
by vamseeachanta
Energy Data Visualizer (user)
Skill Details
Repository Files
1 file in this skill directory
name: energy-data-visualizer description: Energy Data Visualizer (user)
Energy Data Visualizer Skill
Interactive visualization for oil & gas data analysis using Plotly
When to Use This Skill
Use this skill when you need to:
- Create production time series charts
- Visualize decline curves and forecasts
- Build economic scenario comparison charts
- Generate field/block comparison visualizations
- Create interactive HTML dashboards
Core Pattern
"""
ABOUTME: Interactive visualization toolkit for energy data analysis
ABOUTME: Provides chart templates for production, economics, and mapping
"""
import plotly.graph_objects as go
from plotly.subplots import make_subplots
import pandas as pd
class ProductionChartBuilder:
"""Build interactive production charts."""
def production_time_series(
self,
df: pd.DataFrame,
date_col: str = "date",
rate_cols: list = ["oil_bopd", "gas_mcfd"]
) -> go.Figure:
"""Create production rate vs time chart."""
fig = make_subplots(rows=2, cols=1, shared_xaxes=True)
colors = {"oil_bopd": "#2E7D32", "gas_mcfd": "#D32F2F"}
for col in rate_cols:
if col in df.columns:
fig.add_trace(
go.Scatter(x=df[date_col], y=df[col], name=col),
row=1, col=1
)
fig.update_layout(title="Production History", hovermode="x unified")
return fig
def decline_curve_plot(
self,
actual_df: pd.DataFrame,
forecast_df: pd.DataFrame = None,
log_scale: bool = True
) -> go.Figure:
"""Create decline curve with forecast overlay."""
fig = go.Figure()
fig.add_trace(go.Scatter(
x=actual_df["months"],
y=actual_df["rate"],
mode="markers",
name="Actual"
))
if forecast_df is not None:
fig.add_trace(go.Scatter(
x=forecast_df["months"],
y=forecast_df["p50"],
mode="lines",
name="P50 Forecast"
))
if log_scale:
fig.update_yaxes(type="log")
return fig
class EconomicsChartBuilder:
"""Build economic analysis charts."""
def cash_flow_waterfall(self, components: dict) -> go.Figure:
"""Create waterfall chart for cash flow breakdown."""
names = list(components.keys()) + ["Net"]
values = list(components.values())
values.append(sum(values))
fig = go.Figure(go.Waterfall(
x=names,
y=values,
measure=["relative"] * (len(values)-1) + ["total"]
))
fig.update_layout(title="Cash Flow Waterfall")
return fig
def npv_sensitivity_tornado(
self,
sensitivities: dict,
base_npv: float
) -> go.Figure:
"""Create tornado chart for NPV sensitivity."""
params = list(sensitivities.keys())
lows = [s["low"] - base_npv for s in sensitivities.values()]
highs = [s["high"] - base_npv for s in sensitivities.values()]
fig = go.Figure()
fig.add_trace(go.Bar(y=params, x=lows, orientation="h", name="Low"))
fig.add_trace(go.Bar(y=params, x=highs, orientation="h", name="High"))
fig.update_layout(barmode="overlay", title="NPV Sensitivity")
return fig
Usage Example
from worldenergydata.visualize import ProductionChartBuilder
import pandas as pd
# Load data
df = pd.read_csv("production.csv", parse_dates=["date"])
# Create chart
builder = ProductionChartBuilder()
fig = builder.production_time_series(df)
fig.write_html("reports/production.html")
Best Practices
- Use interactive Plotly charts, not static matplotlib
- Include hover tooltips with relevant data
- Export as standalone HTML files
- Use consistent color schemes
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