Trim Energy

PowerShave

Reducing generator diesel costs & electricity draw Protecting uptime Zero Capex

Battery intelligently cuts generator run time by shaving peak usage.

Trim Energy

The Problem We're Solving.

Compressor-driven power peaks
Diesel use and peak charges.

Generator Stress
Oversized gensets run inefficiently, with voltage
dips that risk trips and product loss.
Reduce pull from the grid and electricity charges.

Power Instability = Product Risk

Why It Matters Now.

Outages

Voltage dips and brief outages can compromise temperature integrity.

Slow Restarts

Restart events accelerate compressor and generator wear.

Damage

A single incident can wipe out weeks of margin.

Battery-Based Peak Shaving

Our Solution

Battery integrates seamlessly

Voltage dips and brief outages can compromise temperature integrity.

Smooths peaks automatically

The battery absorbs short compressor-driven and other energy peaks, allowing generators to run at stable, efficient loads while protecting uptime.

Delivers real, measurable savings

Fuel, peak demand, andmaintenance savings aretracked and verified — not estimated — through live monitoring and reporting.

Our Process

How It Works.

Monitor

Real-time load compressors, and generator output.

Predict

Identifies energy usage peaks.

Shave

Battery discharges during peak events.

Stabilise

Generators stay in their efficient operating range.

Report

Fuel use, peak reduction, and savings verified from live data.

How We Prove Savings Before You Commit

Proving Savings

01 Week 1-4

Temporary energy monitoring installed

We install short-term metering to capture real load, generator behavior, and peak demand under normal operating conditions.

03 Week 5

Power profile and peak analysis

We analyze when, how often, and how severely peak demand events occur — and how they drive fuel use, tariffs, and generator stress.

02 Week 6

Battery sizing and Potential savings forecast We model

Peak shaving potential, Fuel reduction, Demand charge avoidance, Expected financial returns – providing a guaranteed Savings Assessment.

04 Week 6

Proceed only if savings are proven

If the economics stack up, we move to deployment.
If not, you keep the data and insights – with no obligation.

15 - 40%

Reduced outage Risk

Lower risk of compressor trips and restart events.

10 - 15%

Reduced Diesel Costs

Voltage dips and brief outages can compromise temperature integrity.

How We Prove Savings Before You Commit

Proving Savings

25-40%

Of short peak demand events In generator-reliant and weak-grid sites, brief spikes account for a disproportionate share of fuel use and demand charges. energy cost is driven by

30-50%

Of generator runtime occurs outside optimal efficiency. Oversized gensets run inefficiently to cover occasional peaks, increasing fuel burn and accelerating wear.

20-30%

Potential fuel savings from peak shaving in diesel- heavy sites Smoothing short peaks allows generators to operate closer to theiroptimal load range.

24/7

Uptime is now a non- negotiable requirement For cold storage and critical operations, power instability directly impacts revenue, reputation, and risk profile.

Why Act Now

REDUCE COSTS

Reduce disel Diesel prices and availability remain volatile. Reduce peak electricity consumption if grid connected.

RELIABILITY

Grid reliability is inconsistent in many regions.

REDUCE RISK

Cold chains, distribution centres, edge of grid sites face increasing customer and regulatory scrutiny.

Core Capabilities

Designed for high humidity, high ambient temperatures, and 24/7 industrial operation.

PowerShave™ is engineered for harsh, remote, andmission-critical environments.

Built for:

Long-Life LFP Chemistry

Uses Lithium Iron Phosphate (LFP) chemistry, chosen for long cycle life, chemical stability, and predictable degradation over time.

High Heat & Harsh Environment Tolerance

Uses Lithium Iron Phosphate (LFP) chemistry, chosen for long cycle life, chemical stability, and predictable degradation over time.

Industrial Grade Design & Longevity

Uses Lithium Iron Phosphate (LFP) chemistry, chosen for long cycle life, chemical stability, and predictable degradation over time.

Cell-Level Protection & Isolation

Individual cell-level monitoring, isolation, and protection architecture limits fault propagation and improves overall system safety.

Our Team

Meet the Team.

Charlie Morris

Founder

Tom

Engineer

Tom

Founder

Let’s start saving you money

Partner with an experienced energy team that delivers efficient power solutions and long-term savings.

Trim Energy

PowerShave

Trim Energy

The Problem We're Solving.

Power Instability = Product Risk

Why It Matters Now.

Outages

Slow Restarts

Damage

Battery-Based Peak Shaving

Our Solution

Battery integrates seamlessly

Smooths peaks automatically

Delivers real, measurable savings

Our Process

How It Works.

Monitor

Predict

Shave

Stabilise

Report

How We Prove Savings Before You Commit

Proving Savings

01

Week 1-4

Temporary energy monitoring installed

03

Week 5

Power profile and peak analysis

02

Week 6

Battery sizing and Potential savings forecast We model

04

Week 6

Proceed only if savings are proven

15 - 40%

Reduced outage Risk

10 - 15%

Reduced Diesel Costs

How We Prove Savings Before You Commit

Proving Savings

25-40%

30-50%

20-30%

24/7

Why Act Now

REDUCE COSTS

RELIABILITY

REDUCE RISK

Core Capabilities

Built for:

Long-Life LFP Chemistry

High Heat & Harsh Environment Tolerance

Industrial Grade Design & Longevity

Cell-Level Protection & Isolation

Our Team

Meet the Team.

Charlie Morris

Founder

Tom

Engineer

Tom

Founder

Let’s start saving you money

Get a Custom Energy Audit

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