Battery Energy Storage

Battery Energy Storage Systems & Support

Battery Energy Storage Solutions by LithTech are Safe, Reliable, and Scalable.

Safest Battery Chemistry

Lithium Iron Phosphate battery chemistry has zero thermal runway, are cobalt free, are lower energy density, and offer longer lifecycle and storage life.

Product Selection

LithTech battery options are designed and customized to support any application and size, offering better lead times and pricing options.

Engineering Support

Turnkey support for any stage of a project, offering pre-tested integrated solutions that achieve extensive quality control and the highest level of safety and economic dispatch.


With a strong partner network, our solutions can be provided with off-balance sheet financing.

Microgrid on a Skid

Small, modular microgrid solution designed and built in a controlled environment and installed on-site; capable of storing up to 1500 kwh and 750 KVA.

Utility & Commercial Battery Energy Storage Solutions & Support

With more than 50 years of combined engineering & battery technology experience, our battery energy storage solutions provide maximum safety, reliability, optimized performance & long-lasting lifecycles.
Stark Tech strives to be a trusted infrastructure partner supporting Commercial, Industrial & Mission Critical HVAC, Power & Boiler system applications. We specialize in data center & cleanroom projects, creating a unique integration capability. Our technical experts are committed to providing excellent service and customized solutions to keep critical assets online.

As more buildings, vehicles, and other assets electrify, the rising electricity demands placed on the grid create instability of power, especially during high peak times.  With the rise in electrical demand and pressure to integrate more renewable energy sources, energy storage technologies will play a pivotal role in stabilizing the grid infrastructure.

Batteries work by storing energy to be deployed when it’s needed and offer continuous power flow for critical environments. Batteries play a critical component to any energy strategy, including generating new lines of revenue and ensuring power resiliency.

For example, commercial and industrial users can implement several energy strategies using battery energy storage. Peak shaving, for instance, helps manage energy demand and avoid sudden spikes in consumption. This includes shifting energy consumption from the grid by tapping into the stored energy from the battery during high energy cost times or during power outages.  

Implementing a microgrid on site also has several benefits, including untether building owners from the main electrical grid instead offering self-contained sources of energy to power assets. In addition, as more building owners integrate renewable energy sources, batteries can guarantee a smooth and continuous flow of electricity in times when there’s a lag in the availability of power. 

In addition, there are several benefits to implementing a battery energy storage strategy into your portfolio.

Benefits include:

  1. Storing low-cost energy and consuming it during peak periods when electricity rates are higher allows a user to shift consumption and avoid higher charges.
  2. Reduce dependency on the grid by guaranteeing a continuous energy supply during grid instability periods.
  3. Renewable smoothing by storing excess power energy sources like wind and solar for times when the wind isn’t blowing and the sun isn’t shining.
  4. Emergency backup to improve resiliency during power disruptions and outages.

Stark Tech works with utilities and commercial and industrial users to implement battery energy storage systems into their power quality and energy management strategy. Battery energy storage systems are critical to grid resiliency as more assets electrify and more renewable sources are added to the grid. 


Our turnkey services and engineering support capabilities can be provided separately or combined for an integrated solution that delivers the results needed to achieve your optimization goals and objectives.  

Turnkey Project Management

Turnkey Project Management

End-to-End support from concept and design through project management & commissioning to scope and budget.


Building Intelligence

Command center live monitoring, strategic action and service that minimize operational disruptions and optimize performance.

Renewable Integrations

Renewable Integrations

Clean-tech solutions, including solar development, energy master planning, consulting, and implementation.

RNG & Compression 

Renewable Natural Gas

High-quality skid systems with engineering for compressed air, liquid applications, landfill, biogas & wastewater.


Our clients recognize and value our distinctive and validated approach. No other organization matches our combination of building and energy systems expertise, analytics platform, engineering, & IT network professionals.  

In a quick 16-week turnaround, Stark Tech was able to install dehumidifiers to maintain tight humidity control in order to achieve the cleanroom conditions needed to convert the 306,000 sq. ft. warehouse into a mass production site.


Critical Power and
Cleanroom Standards


In a green architecture design, Stark Tech incorporated a vegetated lower roof and photovoltaic collector on the upper roof with integrated temperature and lighting controls to maintain parameters that save energy and cost.


Protective Systems and
Master Systems Integration


The project is a 350 scfm waste water treatment plant. “The ability to capture biogas from our sewage (and transform it into RNG) is the type of innovative project that will help us reach our renewable energy goals sooner rather than later.” 


Design and Fabrication
of an RNG Skid System



Stark Tech has a long history of renewable energy and facilities management. Our unique six-step process accounts for all phases of development & commissioning processes.  

Six Step Approach
  1. Customer Requirements & Evaluation;
  2. Project design and engineering based on life-cycle modeling and forecasting;
  3. Evaluation, selection, and coordination of project vendors and sub-contractors;
  4. Project permitting and jurisdictional post-installation inspection;
  5. Project Implementation & Construction Management;
  6. Final system commissioning and benchmarking.