Maximizing Electric Vehicle (EV) Range in Cold Weather Environments

Izaak the Elf Solves Santa's Thermal Comfort with Expert Efficiency

Enabling Electric Vehicles to Last Their Lifetime

Solve for the Competing Priorities of Occupant Comfort and Electric Vehicle Range

How to Optimize Cabin Comfort and Range for Electric Vehicles

Modeling Moisture and Its Effects on Thermal Comfort

What Causes Batteries to Age?

Predicting Energy Savings for Electric Vehicle Cabin Comfort

Barriers to Designing Electric Vehicles

Izaak Saves Christmas Again: Simulation Sabotage

Utilize Glass Modeling for Faster Passenger Time-to-Comfort

The Design Requirement for Wearables No One is Talking About ─ And Why Thermal Management is so Important

Reducing Range Anxiety with Efficient Cabin Comfort Techniques

Why Thermal Simulation is a Key Ingredient for Lightweighting

Pushing the Boundaries of Automotive Lightweighting with Simulation

Stay Dry, Stay Warm: How Moisture Affects the Thermal Properties of Clothing

The 3 Pivotal Steps to Master Advanced Coupling

Advancements in Simulation Empower Critical Design Decisions

3 Strategies for Battery Packaging, Cooling, and System Integration for Electric Vehicles

How to Shorten Run Times: Leverage the Strengths of TAITherm & CFD Simulations

Simulating Transient Drive Cycles: The Benefits and Barriers

4 Methods for Muffler Modeling

The Importance of Transient Simulation for Underhood & Underbody Packaging

A Better Way to Perform Coupled HVAC & Battery Simulations

How Coupling Software Will Enhance Your CAE Process

The One Thing Your Process is Missing for Better & Faster Design

Advantages of Simulating Thermal Behavior of Underbody Components

How to Balance Accuracy and Efficiency: When to Use Thermal Simulation, CFD or Both

8 Questions to Ask When Building Your Thermal Model

Why Simulate Wearables?

Why Thermal Sensation & Comfort Are Vital to HVAC Design

4 Reasons to Use Localized Thermal Comfort (And Simulate It)

Solving for both Human Comfort and Energy Efficiency

Automotive Simulation is Driving Toward User-Centered Design

How to Overcome the Challenges of Exhaust Simulation

How to Design Seats Using Simulation

Simulating Seats with Human Comfort in Mind

Feature Spotlight: The Exhaust Extension

Racing’s “Formula” for Optimizing Performance

Simulating Seats: Innovating Comfort and Energy Efficiency

Preventing Thermal Runaway Before it Even Starts

How OEMs are Now Able to Optimize Durability and Lifetime of Systems and Components

How to Integrate Simulation with Statistical Analysis to Better Predict Durability

ThermoAnalytics EO-IR Services Overview

Plume Modeling with MuSES

Camouflage Texture Mapping with MuSES

OEMs Emphasize — and Increasingly Measure — Durability to Drive ROI

MuSES & the Human Thermal Extension

TAITherm & GT-SUITE, Part 2: Validation of 2012 Volvo S60 Model

TAITherm & GT-SUITE, Part 1: Arguably the Fastest Solution to Full Vehicle Thermal Management

TAITherm: Powerful Software for Powerful Vehicles

Introducing CoTherm: A Better, Faster, More Robust CAE Coupling Solution

How Izaak the Elf and TAITherm Saved Christmas

When, Why and How to Optimize the Decision-Making Process Using Simulation

Optimizing the Decision-Making Process Using Simulation Technologies

Getting Smart with Thermal Analysis: Heavy Vehicles

It's Never too Early to Simulate

Why Using Simulation to Front Load Design Decisions Gives You the Competitive Advantage

Part 4: Validation- Accounting for Variants

Part 3: Development - Make that Component Vehicle-Compatible

Part 2: Pre-Development - Build a Component that Works

Part 1: Simulation Methodology - How to Use Simulation to Cut 33% or More from the Product Development Timeline

Moving from the “Test-and-Fix" Paradigm to "Fix...then Test"

Does Simulation Cost or Pay?

Heavy Duty: The Unique Thermodynamics of Heavy Vehicles

Why, How and When to Perform Thermal Modeling on Automotive Brake Systems

You're a Real Boy Now, Newton!

The 5 Most Common Mistakes Engineers Make In Thermal Modeling

Get Comfy Quickly with ThermoAnalytics Human Thermal Comfort Software

NREL Model Licensed to ThermoAnalytics to Improve Accuracy of Battery Simulations

Battery Up: Popularity of Hybrid and Electric Vehicles Placing Greater Demand and Performance Expectations on Lithium-ion

Physiology Based Human Comfort Metrics & Designing Environmental Control Systems

Keep It Cool With This Battery Module