TankBridge™ Calibration Module

CIF Calibration Intelligent Engine

Blank-ready Computer Input Format interface for vendor CIF import, manual entry, TankBridge engine calculation and Excel validation.

TANK NUMBER
-
Generated Capacity
-
Dip Range
-
CIF Courses
-

Volume Curve

CIF Engine Status

-

Excel Validation

-

CIF - Computer Input Format

Input page ini sengaja dibuat ringkas. Key-in hanya data yang sama seperti sheet CIF vendor, kemudian tekan Recalculate.

Upload vendor Excel file; system will read sheet named CIF and populate this interface.
Current CIF Information
TANK NUMBER-
PRODUCT-
DENSITY-
TEMPERATURE-

Maklumat ini dibaca automatik daripada sheet CIF vendor, contoh: TANK NUMBER, PRODUCT, DENSITY dan TEMPERATURE.

Tank Details

Course / Strapping Data

Manual input columns: COURSE NUMBER, COURSE HEIGHT (MM), NETT. INCR. (Litre/cm). Row count is dynamic — Excel CIF import follows the actual number of course rows.

COURSE NUMBERCOURSE HEIGHT (MM)NETT. INCR. (Litre/cm)
Total Course Height: - Generated Final Dip: - Generated Final Volume: -

Local save/load status: ready.

Current CIF Information
TANK NUMBER-
PRODUCT-
DENSITY-
TEMPERATURE-

Maklumat ini diambil daripada CIF import/manual project supaya operator tahu tank, product, density dan temperature yang sedang digunakan untuk kiraan.

Dip to Volume Calculator

-

Result

Dip-
Apparent Volume-
Interpolation-
Excel Reference-
Difference-

This calculator uses TankBridge Engine calculation as the primary source. Vendor Excel certified table is kept as reference/validation and can be selected when exact vendor-table lookup is required.

Calibration Table

Current CIF Information
TANK NUMBER-
PRODUCT-
DENSITY-
TEMPERATURE-
DIP mmVolume LIncr L/mmFlag

Engine Notes

This version is focused on the vendor CIF sheet. The input page only keeps the required manual fields and course table. Other workbook information is treated as internal/default project metadata or validation output.

Core logic

Reference Height mm = Reference Height metre × 1000
Shell Height mm     = Shell Height metre × 1000
Volume at datum     = Volume to Datum (litres)
Volume at crown     = Volume to Crown (litres)
Course increment    = NETT. INCR. (Litre/cm) ÷ 10
Course volume       = start volume + (dip mm - course start mm) × increment L/mm
Final dip           = Height at Datum + total Course Height
Final volume        = Volume to Crown + Σ(course height × increment L/mm)

TankBridge Engine calculation is the primary source. Vendor Excel certified table is imported as reference/validation. If a difference appears, the app will show the deviation instead of blindly accepting the Excel table.