Modulcheck

Enterprise R&D and Support Platform

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Welcome to Modulcheck Platform

Your account currently has no authorized modules. Please contact the system administrator to request access.

System Permissions & Staff Management

Purpose: This screen is for administrators only. You can approve registered staff accounts and set which modules they can access.

Staff Email Address	Role Status	Authorized Modules	Action

Smart Vehicle Advisor (Engine Oil Only)

Purpose: Lists the most suitable LUKOIL engine oil recommended for the selected vehicle's engine segment.

1. Category

2. Brand Name

3. Model Name

4. Type / Engine

Make your full selection on the left or use search above to find the recommended LUKOIL engine oil.

Cross-Reference & Analogues Guide

Purpose: Identifies LUKOIL equivalents for competitor products or competitor equivalents for specific LUKOIL products.

1. Competitor Brand

2. Competitor Product

Make a selection to view comparison and equivalent products.

Core Formulation Engine

Purpose: Calculates the final kinematic viscosity, Viscosity Index, CCS, and Total Base Number (TBN) of the blended lubricant based on component weight ratios.

Component Name / Code	Wt (%)	KV40 (cSt)	KV100 (cSt)	CCS (mPa.s)	TBN
	Total Wt:	0.00%

Estimated Properties

KV400.00

KV1000.00

Viscosity Index0

CCS0

Total TBN0.00

SAE & ACEA Specification Checker

Purpose: Validates whether the simulated oil properties meet the chosen SAE J300 viscosity limits and ACEA engine oil performance criteria (including SAPS limits).

Target Viscosity Grade

Performance Category (ACEA)

KV100

CCS

HTHS

TBN

SAPS (%)

AWAITING DATA TO VALIDATE STATUS

A. Kettle Thickening with Polymer (VM)

Purpose: Calculates the required amount of polymer viscosity modifier (VM) needed to correct an under-viscous production batch.

Laboratory Performance Data

Diluent KV100

Lab Treat (%)

Result KV100

Production Tank Status

Current Mass

Current KV100

TARGET KV100

Required VM Addition

Relative Dosing Ratio: 0.00%

0.00 kg

B. TBN Upping & Base Oil Thinning

Purpose: Determines the exact mass of thin correction oil or performance additive needed to correct high viscosity or low TBN in a production batch.

Net Kettle/Blender Mass (kg):

B1: TBN Upping

Current TBN

Additive TBN

Target TBN

Required Additive

0.00 kg

Dosing Ratio: 0.00%

B2: Viscosity Thinning (Log)

Current KV100

Thin Oil KV100

Target KV100

Required Correction Oil

0.00 kg

Dosing Ratio: 0.00%

1. Find Ratio for Target Viscosity

Purpose: Calculates the specific blend ratios of available light and heavy base oils needed to reach a target viscosity.

Base Oil 1 (Light)

Base Oil 2 (Heavy)

TARGET BLEND KV100

Oil 1 Ratio

0.00%

Oil 2 Ratio

0.00%

2. Simulate Viscosity from Wt Ratios

Purpose: Estimates the final blend viscosity based on established weight percentages of two distinct components.

Component 1

Component 2

Blend KV40

0.00

Blend KV100

0.00

Blend VI

3. Base Oil Interchange (Read-Across) Tool

Purpose: Replaces an existing base oil combination with a new base oil series to maintain the exact pool viscosity, useful during supply chain shifts.

Phase 1: Existing Oils

Old Component A

Old Component B

Phase 2: New Replacement Oils

New Light Oil C

New Heavy Oil D

Optimized New Ratio

New Oil (C) Wt%

0.00%

New Oil (D) Wt%

0.00%

Matched Pool KV100

KV100: 0.00

CCS Predictor

Predicts the Cold Cranking Simulator (CCS) resistance of the engine oil blend at low temperatures logarithmically.

Component A

Component B

Estimated Blend CCS

0 mPa.s

NOACK Predictor

Estimates the high-temperature evaporation loss (NOACK, ASTM D5800) for two-component blends.

Component A

Component B

Estimated Blend NOACK

0.00 %

Flash Point Predictor

Calculates the Open Cup (COC) flash point of a blend, accounting for the volatile suppression of lighter components.

Component A

Component B

Estimated Flash Point

0 °C

HTHS Predictor

Predicts the High-Temp High-Shear (HTHS) dynamic viscosity at 150°C using base oil and polymer component data.

Base Oil Pool

VM Polymer

Estimated Final HTHS

0.00 mPa.s

Performance Radar & Specifications Library

Purpose: Visualizes the relative performance of engine oil specifications (API, ACEA, OEM) and provides an immediate comparison of their official technical limits (SAPS, HTHS, etc.).

Profiles to Compare

1. Profile (Reference)

2. Profile (Comparison)

Technical Limit	Spec 1	Spec 2
HTHS @ 150°C (cP)	-	-
Sulfated Ash / SAPS (wt %)	-	-
Phosphorus / P (wt %)	-	-
Sulfur / S (wt %)	-	-
TBN (mg KOH/g)	-	-

VM-Visc Recalculator

Purpose: Analyzes reverse dilution and solvency efficiency for polymer blends based on the API group characteristics and thickener type.

1. Laboratory Cut Measurements

Lab Cut KV40

Lab Cut KV100

Neat Polymer Concentration (%)

Diluent Oil KV40

Diluent Oil KV100

2. Solvency Calibration Matrix

Polymer Family (Type)

Lab Diluent API Group

Target Production Group

SSI (Shear Stability Index)

Calibrated Neat Polymer KV40

0.00

Calibrated Neat Polymer KV100

0.00

Density & Logistic Calculator

Purpose: Transposes gravimetric mass into volumetric yield, calculates packaging unit generation, and assesses logistics/truck loading limits.

1. Batch Metrics

Net Production Mass (kg)

Lab Density @ 15°C (g/cm³)

Target Packaging Unit

Filling Volume @ 20°C

0.0 L

Dynamic D20 Corrected Density: 0.0000

Total Unit Yield

Theoretical Max Units

Full Pallet Count

Loose Units

Truck Loading Capacity (Max 24MT / 33 Pallets)

Weight Used: 0% Pallet Space Used: 0%

Visc-Temp Interpolation

Purpose: Projects the full viscosity-temperature curve using the Walther-MacCoull equation, allowing for precise kinematic viscosity estimations.

Laboratory Baseline Measurements

Measured KV40 (cSt)

Measured KV100 (cSt)

Projected Thermal Curve

Cold Cranking Profile (0°C)

0 cSt

Industrial Standard (50°C)

0.0 cSt

Normal Engine Temp (80°C)

0.0 cSt

High Temp High Shear (150°C)

0.00 cSt

Coolant Freezing Point

Purpose: Predicts the ultimate freezing point protection limit and identifies crystallization risk ranges for various engine coolant base chemistries.

1. Coolant Base Chemistry

2. Mixture Concentration (%)

50% Glycol 50% Demin. Water

Estimated Freeze Protection Limit

-37 °C

Grease Formulation

Purpose: Estimates the formal NLGI grade, worked penetration depth, and theoretical dropping point for industrial grease formulations.

1. Thickener System

Thickener Type

Thickener Concentration (Wt %)

2. Base Oil Pool

Light Oil (Wt %)

KV40 (cSt)

Heavy Oil (Wt %)

KV40 (cSt)

* The remaining percentage (6.5%) is allocated to the Additive Package.

Estimated Specifications

NLGI Grade NLGI 2

Worked Penetration

280 dmm

Base Oil Viscosity

115 cSt (@ 40°C)

Dropping Point

> 195 °C

Industrial Unit Converter

Purpose: Provides conversions between industrial units used in petrochemical and laboratory specifications.

Conversion Category

Input Values

Input Value

From Unit

To Target Unit

Converted Result

0.00

Modulcheck

Welcome to Modulcheck Platform

Edit Permissions

LUKOIL Recommended Engine Oil

Brand + Model

Type

Laboratory Performance Data

Production Tank Status

B1: TBN Upping

B2: Viscosity Thinning (Log)

Base Oil 1 (Light)

Base Oil 2 (Heavy)

Component 1

Component 2

Old Component A

Old Component B

New Light Oil C

New Heavy Oil D

Optimized New Ratio

Component A

Component B

Component A

Component B

Component A

Component B

Base Oil Pool

VM Polymer

Profiles to Compare

1. Laboratory Cut Measurements

2. Solvency Calibration Matrix

1. Batch Metrics

Laboratory Baseline Measurements

Projected Thermal Curve

1. Thickener System

2. Base Oil Pool

Estimated Specifications

Conversion Category

Input Values