Engineering at the Interface

Where Heat, Flow
& Surface Meet

Turning Physics into Measurable Business Impact

EnergyLogic specialises in Engineering at the Interface. Whether it is liquid cooling for AI, anti-fouling for medical implants, or nanoscale synthesis for pharmaceuticals, we solve the thermodynamic and fluid-dynamic bottlenecks that prevent hardware from performing at its limit. If your problem involves heat, flow, or surface interaction, we provide the fundamental physics to solve it.

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Who We Are

Engineering at the Interface

EnergyLogic specialises in the physics that governs boundaries — where liquids meet solids, where heat meets flow, and where surfaces interact with their environment. From liquid cooling for AI hardware to anti-fouling coatings for medical implants, we solve the thermodynamic and fluid-dynamic bottlenecks that prevent hardware from performing at its limit.

If your problem involves heat, flow, or surface interaction, we provide the fundamental physics to solve it — backed by deep cross-industry knowledge and a track record spanning diverse sectors worldwide.

Our Vision

Turning Physics into Measurable Business Impact

  • ISO-certified quality management systems
  • Independent, conflict-of-interest-free advice
  • Multi-disciplinary teams tailored to each engagement
  • Strong partnerships with leading technology providers
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What We Do

Our Core Services

Physics-driven consultancy spanning interfacial phenomena, thermodynamics, fluid dynamics, and nanotechnology — applied across industries.

Product Stability

Core science: Interfacial Phenomena. Improving the shelf-life of emulsions — paints, cosmetics, agro-chemicals — by resolving unstable mixtures, surface fouling, and poor adhesion.

Paints & Coatings · Agrochemicals

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Thermal Audit

Core science: Thermodynamics. Cutting 10–20% off the energy bill by optimizing boilers, dryers, or furnaces — tackling high fuel costs and inefficient heating/cooling cycles.

Food Processing · Textile Mills · Cold Storage

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Advanced Surfaces

Core science: Nanotechnology. Adding nano-coatings to extend machine life or create "self-cleaning" products — addressing material wear, corrosion, and contamination.

Automotive Parts · Solar Panels · Medical Equipment

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Real-World Impact

Use Cases

See how EnergyLogic's physics-driven approach solves real operational challenges across industries.

Cold Chain Optimization

The Cause

Transport delays and unreliable temperature control in transit.

The Layman View

Imagine a freezer full of ice cream being transported in a truck that breaks down. Without electricity, the inventory is lost in hours.

The Solution

We design phase-change-material (PCM) containers that maintain temperature without electricity for 24–48 hours.

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Green Energy & Heat Reuse

The Problem

Data centers and industrial plants generate massive amounts of waste heat that is simply vented into the atmosphere.

The Opportunity

Imagine heating an entire neighborhood for free using the surplus heat from a nearby server farm — turning an unavoidable by-product into a valuable community asset.

The Solution

We provide thermodynamic modeling to maximize the Coefficient of Performance (COP) in heat-recovery systems, converting waste heat into usable energy at the highest possible efficiency.

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Semiconductor Thermal Management

The Problem

As AI chips get smaller and more powerful, they generate extreme heat densities that traditional air cooling can no longer handle, threatening performance and reliability.

The Opportunity

Moving to immersion cooling and close-coupled liquid cooling places coolant directly at the chip — but the real challenge is ensuring heat efficiently jumps from the silicon into the liquid, and that every server in a rack receives an equal share of coolant regardless of its position.

The Solution

We engineer chip-level thermal interface designs that maximize heat transfer from silicon to coolant, and apply hydraulic balancing to server-rack piping networks so that coolant flow is distributed uniformly — preventing the bottom servers from being over-cooled while the top servers overheat.

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Exclusive Service

Assessment Report

Receive a comprehensive preliminary energy assessment report for your facility — pinpointing thermal inefficiencies, estimating potential savings, and providing a clear, physics-backed roadmap for improvement.

Detailed Analysis

Comprehensive thermal audit covering furnace geometry, operating profile, insulation performance, and energy consumption — all in one structured report.

Actionable Insights

Clear recommendations backed by physics-driven modelling, with estimated payback periods and projected ROI so you can prioritise improvements confidently.

Energy Savings

Identify targeted interventions in insulation, heat recovery, and combustion optimisation that can cut 10–30% off your energy costs.

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Whether you have a specific project in mind or simply want to explore how EnergyLogic can support your organisation, we'd love to hear from you.

Head Office Pune, MH, India