Gobel Power, 806-809, Block B, Huameiju Building, Bao'an District, Shenzhen (2026)

19/03/2026

🔋🇨🇭 32kWh Home Energy Storage Project in Switzerland

We’ve just completed a 32kWh residential energy storage system for a homeowner in Switzerland — and the results have been great!

🏡 The system now supports the household’s daily energy needs
⚡ Reduces reliance on the grid during peak hours
🔄 Improves overall energy efficiency

After installation and testing, everything is running smoothly — and most importantly, the customer is very happy with the performance 👍

💡 What we’re seeing in Switzerland (and across Europe):
More and more homeowners are looking for:
• Greater energy independence
• Better control over electricity costs
• Reliable backup power

Energy storage is quickly becoming a key part of modern homes.

👉 Are you working on:
• Residential energy storage projects?
• Off-grid systems?
• Backup power solutions?

Let’s connect — we’re happy to help you find the right solution for your project.

📩 [email protected]

📱 WhatsApp: +852 5701 7418

💬 Curious to hear your thoughts — would you consider adding energy storage to your home?

18/03/2026

⚡ 587Ah vs 684Ah — Are we asking the wrong question?

In the past few years, battery sizes have been getting bigger and bigger:

280Ah → 314Ah → 587Ah → 684Ah

The logic seems simple:

👉 Bigger cells = fewer components = lower cost

Sounds great, right?

But here’s the thing 👇

We’ve seen this story before.

The solar industry went through the exact same “size race”:

M2 → M6 → M10 → G12

Bigger panels promised lower costs…

But later came new problems:

• harder transportation
• more complex installation
• compatibility issues
• structural risks

👉 Bigger didn’t always mean better.

Now energy storage might be heading the same way.

587Ah vs 684Ah isn’t just about size.

It’s actually two different directions:

• 587Ah → more balanced system design
• 684Ah → pushing maximum density

Both make sense.

But as cells get bigger, the challenges grow too:

• thermal management
• safety risks
• maintenance difficulty

So maybe the real question is:

👉 Is bigger really better?

Or…

👉 Are we focusing on the wrong thing?

💡 My take:

Bigger batteries don’t automatically build better systems.

In the future, what really matters might be:

👉 smarter system design
👉 better control
👉 more flexibility

Because in a renewable energy world, the rarest thing isn’t capacity.

👉 It’s flexibility.

💬 What do you think?

Would you choose:

🔘 Bigger cells
🔘 Longer duration
🔘 Smarter systems

Drop your thoughts 👇

📩 For more insights or battery solutions, feel free to reach out:
[email protected]

17/03/2026

New Batch of Battery Cells Has Arrived 🔋

We’re excited to share that a new batch of battery cells has just arrived at our warehouse. After inspection and preparation, these cells will soon be shipped to our overseas warehouses to support faster delivery for our global customers.

With the growing demand for energy storage and new energy solutions, we continue working to maintain stable supply and reliable delivery for our partners worldwide.

These cells are widely used for:

• Energy storage systems
• Solar projects
• EV and power applications
• DIY battery projects

If you are looking for reliable battery cell supply or planning a new energy storage project, feel free to connect with us.

For specifications or quotations, please contact:
📧 [email protected]
Whatsapp：+852 5701 7418

We’re always happy to discuss your project needs.

16/03/2026

🔋 SOC = 80% does NOT always mean your battery is in good condition.

Many people assume that if a battery shows 80% charge, everything is fine.

But there is another number that matters just as much:

SOH — State of Health

For example:

SOC = 80%
SOH = 70%

This means the battery looks well charged, but it has already lost about 30% of its original capacity.

⚡ SOC (State of Charge)
Shows how much energy the battery has right now.

🔋 SOH (State of Health)
Shows how healthy the battery still is over time.

In simple terms:

SOC = today's energy
SOH = long-term battery condition

As energy storage systems grow larger around the world, understanding both numbers becomes increasingly important.

Because a battery that looks “full” may already be aging internally.

💬 Quick question:

When monitoring battery systems, which do you think is more challenging to estimate accurately?

SOC
or
SOH?

Share your thoughts 👇

📩 [email protected]

14/03/2026

🔋 Germany’s home energy storage market is growing fast.

We recently delivered a batch of 230Ah LiFePO₄ battery cells from EVE Energy to one of our partners in Germany.

Across Germany and many parts of Europe, home battery storage is becoming a standard part of new solar installations.

Why?

⚡ Electricity prices remain high
☀️ Solar self-consumption is becoming more valuable
🏡 More homeowners want greater energy independence

The 230Ah LiFePO₄ battery cell has become a popular choice for many energy storage systems because it offers a great balance of:

🔋 Capacity
⚙ Flexible pack design
🛡 Safety and long cycle life

It’s always exciting to see battery cells move from the factory into real solar projects and homes.

📩 Contact: [email protected]

💬 Quick question for installers and DIY builders:

Which battery cell capacity do you use most in home energy storage systems?

🔋 100Ah
🔋 230Ah
🔋 280Ah
🔋 314Ah

Let us know in the comments 👇

13/03/2026

⚡ The energy transition might soon face an unexpected challenge: too much electricity.

For decades, the goal was simple:
build more power generation.

Now things are changing.

☀️ Solar is becoming the cheapest new electricity source in many regions.
🌬 Wind capacity keeps growing every year.

But at the same time we’re seeing something interesting:

• electricity price volatility increasing
• more renewable curtailment
• more grid stress events

Why?

Because adding generation doesn’t automatically add flexibility.

Solar solves the generation problem.
But modern power systems are increasingly facing a timing problem:

When to generate
When to store
When to release energy 🔋

That’s why the energy system is evolving:

☀️ Rooftop solar → more distributed generation
🔋 Battery storage → balancing daily supply and demand
⚡ Long-duration storage → addressing multi-day gaps

In simple terms:

Electricity may become abundant.
But flexibility will not.

Solar makes electricity cheap.
Storage makes electricity usable.

But the real value may lie in who controls when electricity flows.

💬 What do you think will matter most in the future energy system?

⚡ Generation
🔋 Storage
🧠 Or the ability to manage and control them?

Let’s discuss 👇

📩 [email protected]

12/03/2026

🌍 A message from a small test lab in Nigeria made our day.

Recently, one of our customers in Nigeria shared a photo of their battery testing lab.

They were testing two 15kWh LiFePO4 batteries with several inverter brands to check compatibility and performance.

After running the tests, they sent us a message:

💬 “Your battery is the best we have worked with.”
💬 “It is compatible with several inverters.”

Feedback like this means a lot to our team.

Because in many parts of the world,
reliable electricity is more than just technology — it’s essential for daily life and business.

Seeing our batteries being tested and used in different environments and different countries is something we are very proud of.

Energy transition doesn’t only happen in massive power plants.

Sometimes, it starts in a small test lab.

⚡ Curious to hear from others in the industry:

In your energy storage projects,
how important is battery–inverter compatibility?

Share your experience in the comments 👇

📧 [email protected]

11/03/2026

🔋 Are LFP batteries really reaching their limits?

For years, many people believed that if the industry wanted higher energy density, it would eventually have to move back to high-nickel chemistries.

But the new BYD Blade 2.0 suggests something interesting.

Maybe LFP isn’t reaching its limits —
maybe it’s just being redesigned.

The original Blade 1.0 focused on structural innovation:

• ultra-long blade cell design
• higher pack space utilization
• improved thermal stability

This helped LFP move from being seen as a low-cost battery to one of the most widely used battery chemistries today.

Now Blade 2.0 seems to go one step further by evolving the chemistry itself.

Reported improvements include:

⚡ LMFP cathode – raising the voltage platform from ~3.2V to ~3.8V
⚡ Silicon-carbon anodes – improving capacity while managing expansion
⚡ Advanced electrolyte design – improving ion transport

None of these technologies are completely new.

But their combination inside the Blade architecture could point to a bigger shift in the battery industry.

Today, LFP already accounts for more than 60% of global EV batteries, and an even larger share in energy storage systems.

So the real question may no longer be:

LFP vs NMC

but rather:

How far LFP can evolve.

💬 What do you think?

Could LMFP-based batteries become the next mainstream phosphate chemistry?

Or is this simply delaying the move toward higher-energy battery chemistries?

Let me know your thoughts 👇

📩 For battery inquiries: [email protected]

11/03/2026

🔋 Energy storage is growing fast — but battery safety deserves more attention.

In the industry, we often talk about:

• energy density
• system cost
• cost per kWh

But as storage systems become larger, another issue becomes increasingly important:

thermal runaway.

When a lithium battery overheats, it can start releasing additional energy. If the heat isn’t controlled, the cell can enter thermal runaway.

And in many cases, the problem isn’t just one cell — it’s thermal propagation.

When one cell fails, the heat can trigger neighboring cells and create a chain reaction.

This is why battery safety is not just about chemistry.

It’s also about system design.

Things like:

• thermal management
• pack structure
• cell spacing
• BMS monitoring
• fire protection

all play a key role in large energy storage systems.

In other words:

Battery safety is rarely just a cell problem — it’s a system engineering challenge.

💬 Quick question for everyone in the energy industry:

What do you think matters more for safety in large storage systems?

Battery chemistry
or
system design?

Let me know your thoughts 👇

📩 For battery inquiries: [email protected]

09/03/2026

The first week after the holiday is always the busiest week in manufacturing. 🔋

Production lines restart, machines run continuously again, and new orders, schedules, and shipments all start at once.

Over the past week, our factory has fully resumed operations, and the team quickly returned to a busy but familiar rhythm.

In battery manufacturing, many processes that seem simple actually determine the long-term reliability of the cells.

Take the laser welding process in the photo.
Every welding point affects the consistency, internal resistance, and long-term safety of the battery.

These small details today can determine how a battery performs years — even more than a decade — later.

This week our main focus has been:

⚙️ Restarting production lines
⚙️ Scheduling new cell batches
⚙️ Rechecking quality control systems
⚙️ Preparing overseas shipments

The pace is fast, but one principle never changes:

Quality and consistency always come first.

A busy year ahead for the energy storage industry.
Let’s keep moving. 💪

06/03/2026

Battery prices may be starting to move again. 🔋

After a long period of decline, several key battery raw materials are beginning to stabilize — and even show early signs of rising.

This might look like a small market fluctuation.

But it could actually signal something much bigger.

The energy storage industry may be entering the next growth cycle.

Over the past few years, the market followed a familiar pattern:

Expansion → Oversupply → Falling prices → Market adjustment.

Now several structural signals are emerging:

• Grid-scale storage projects are finally being deployed
• Commercial & industrial storage demand is accelerating
• Distributed storage adoption continues to grow
• Long-duration storage is receiving increasing attention

At the same time, supply has tightened.

Low prices in recent years slowed mining investment, reduced refining output, and put pressure on smaller material suppliers.

When demand begins to recover while supply remains cautious, prices usually respond first at the raw material level.

But there is another important change happening.

Developers are no longer looking only for the lowest battery price.

More attention is shifting toward:

• cycle life
• system efficiency
• thermal management
• long-term reliability

In other words, energy storage is gradually becoming infrastructure — not just equipment.

And infrastructure markets behave very differently.

So the real question may not be:

“Will battery prices rise again?”

But rather:

Have we underestimated the long-term global demand for energy storage over the next decade?

I’d love to hear different perspectives from people working in storage and renewable energy 👇

📩 If you're interested in battery cells or storage solutions, feel free to contact:
[email protected]

05/03/2026

🔋 Battery Cell Prices Are Moving Again — The Market Is Changing

Over the past few weeks, the battery market has started to shift. With upstream raw material costs increasing, lithium battery cell prices are gradually rising and changing more frequently than before.

At the same time, global demand for energy storage continues to grow, making the supply chain more dynamic. Manufacturers and suppliers are adjusting prices more often than in the past.

To ensure stable supply for our customers and partners, we are actively securing inventory and preparing stock in advance. Our goal is to reduce the impact of market fluctuations and help clients keep their projects on schedule.

Whether you are planning solar storage systems, home energy storage solutions, or larger energy projects, staying ahead of supply changes is becoming increasingly important.

⚡ If you have upcoming projects or are considering battery cells, now may be a good time to secure supply early.

📩 Email: [email protected]

Gobel Power

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