Battery energy storage systems (BESS) represent an increasingly viable option for organisations looking for reliable backup power, as well as lower operating costs and environmentally friendly energy production. BESS provides instantaneous power responses, quiet operation, and intelligent load management attributes that make it perfect for commercial and industrial environments.

Why Businesses Are Replacing Conventional Power Backup

Historically, diesel generators have provided the only means of backup power for many facilities. Although they are reliable sources of commercial power, diesel generators also have volatility associated with fuel costs, emissions compliance, and a need for clean air, noise management, and increased maintenance costs. A battery energy storage system allows a company to eliminate the need for fossil fuel dependency and provides a predictable power output with minimal servicing.

For large manufacturing facilities that utilise diesel generators for backup, battery energy storage systems are replacing those generators with the added advantage of automated and manageable power dispatch, the ability to monitor and control batteries remotely, and the capacity to expand capacity without requiring significant physical upgrades to their infrastructure.

Key operational advantages include:

  • Immediate availability of energy
  • Lower noise levels and no onsite emissions
  • Less wear and tear associated with maintenance
  • Stable power quality for sensitive devices
  • Ability to expand capacity for future needs

Cost Efficiency and Operational Stability

A properly used battery storage system will increase utilisation of electrical energy by supplying only the energy needed to maintain a constant load, rather than operating at a fixed capacity like a diesel generator. There are many ways to manage demand charges, reduce peak usage, and improve the stability of your operating budgets as a business.

By employing smart control systems with modern battery energy storage systems (BESS), you can maximise the lifetime and performance of these assets and enhance the ability to conduct predictive diagnosis while increasing operational uptime. As a result, facilities experiencing varying levels of energy usage benefit from a consistent, non-mechanical energy source via battery-controlled electric storage.

Renewable Integration and Sustainability

Adopting a renewable energy source enhances the value proposition of your investment as well. When using rooftop solar, the batteries will be charged during sunny daytime hours and used during evening peak periods or during a grid power disruption. When utilising a properly configured solar battery storage system, the value of the stored energy is maximised by increasing the amount that can be consumed by the customer, thus providing greater long-term resilience to the customer.

Unlike conventional industrial generators, integrating renewable energy into an energy storage system allows you to meet your carbon reduction goals while ensuring that your business will not be disrupted in any way.

Reliability, Safety & Scalability

High-quality battery storage systems are built to meet the requirements of industrial users. Advanced thermal management, advanced fire protection, and intelligent control capability are all features of this type of technology, ensuring that the product is stable under the toughest of industrial environments and allowing for modular growth as the energy requirements change. Digital systems also provide additional benefits over diesel generators as they allow for much greater transparency into the system and have been developed to provide automatic control, thus reducing the operational risk.

Conclusion 

For organisations committed to economic efficiency, environmental sustainability, and long-term operational reliability, moving to intelligent energy solution technology from traditional backup sources represents an investment in the future. Contact Waaree Technologies today so that we can work with you to develop a customised power solution that aligns with your growth goals.

Frequently Asked Questions

1. Can battery-based backup systems provide continuous service for critical loads?

Yes, as long as the system is appropriately sized and the controls are applied intelligently, battery storage systems will provide continuous service for critical loads.

2. What is the useful life of battery systems for commercial applications?

Average useful life is between 8 and 15 years, depending on how many cycles and the conditions of thermal stress are placed on the batteries.

3. Are battery systems safe to deploy in an industrial environment?

Modern-day designs contain fire suppression systems, monitoring systems, and automated shutdown systems to ensure safety.

4. Are battery systems able to significantly lower your electricity costs?

Yes, battery-controlled energy storage allows for peak shaving, load shifting, and optimising the efficiency of energy use; all of these methods significantly improve cost savings.

5. How quickly can battery systems be deployed and commissioned following receipt of the product?

Due to their modular design, battery systems can be installed much faster than conventional power generation systems.