The Benefits of Commercial Energy Storage
There are several ways to implement commercial energy storage in your business. Some examples are battery storage, ground-mounted solar panels, and ice storage systems. Here are some benefits of each. Learn more about your options and start implementing them today! The following article explores the benefits of battery storage. In addition, learn more about ground-mounted solar panels and ice storage systems. If you have an upcoming project, consider these options for commercial energy storage.
The growth in commercial battery storage in the U.S. is accelerating at a rapid rate, with over 700 MW of battery capacity already operational in the nation’s energy grid. The majority of large-scale battery storage is owned by organizations charged with balancing the power grid, such as ISOs and RTOs. These organizations control electricity pricing and distribution in their regions. The benefits of commercial battery storage are numerous. Ultimately, it helps reduce power bills and increase energy security.
Often, commercial energy users are locked into an electricity operator’s pricing structure, which can make it difficult to avoid rising costs. Commercial battery storage solutions from EVESCO allow users to control when they use the power network and power reserves, thereby reducing energy costs. Because demand for electric power continues to increase with the electrification of transportation and heating, prices are likely to remain volatile. If power is unavailable during peak business hours, electric bills can go through the roof.
Meanwhile, several states are taking note of the benefits of commercial battery storage and have begun major projects. For instance, California has passed legislation requiring developers to use battery storage to offset the cost of renewable energy. A bill passed in 2013 set a goal for the state to have 1.325 gigawatts of energy storage installed by 2020. However, only 500 megawatts of storage have been installed so far. Several other states are also taking note.
With the advent of renewable energy technologies, commercial battery storage will play a major role in the global energy mix in the future. Used alongside other renewable technologies, commercial battery storage helps businesses reduce their carbon footprint, protect their bottom line, and reduce their carbon footprint. These systems, called Energy Storage Systems, use lithium-ion chemistry to store energy. They are made to capture energy generated by renewable technologies such as solar, wind, biomass, and wave.
Commercial battery storage solutions are typically expensive. Costs depend on the battery capacity and maintenance costs. Since battery capacity can vary by technology, cost should be factored into the project budget. Commercial battery storage systems can be as low as $10,000 for a single unit. However, the cost of installing and operating a battery system can be as high as $20,000.
Another advantage of commercial battery storage is that they are a valuable asset in energy projects, lowering electrical demand costs and the carbon footprint. They can also be used for peak shaving and disaster recovery. The advantages of commercial battery storage systems are numerous. They can serve as a critical link in a clean energy transition. They can help companies and municipalities reduce their energy bills, save money, and invest in the future of their company. It is essential that they recognize the value of energy storage.
Ground-mounted solar panels
A ground-mounted solar panel system is a great solution for many situations. Ground-mounted systems are typically larger than 9 square meters and are installed on undeveloped land or a patch of lawn. Installation of ground-mounted solar panels begins with the construction of a stable base. Single-pole systems can be set up on a poured concrete foundation, while multi-pole systems may require multiple smaller foundations and above-ground ballast blocks.
A standard ground-mounted solar system consists of multiple solar panels on a horizontal rack that is supported by pylons or a foundation. Ground-mounted solar systems are generally fixed in place and cannot be adjusted to maximize their solar energy collection. A ground-mounted system is best suited for businesses with ample space and do not require sophisticated installation to take full advantage of the sun’s energy. However, if you want to maximize the solar power produced by your system, you should opt for a more customized ground-mounted system.
While ground-mounted systems are often unsightly, they are a smart investment if you want your solar power to be more productive. A ground-mounted solar system is more efficient per panel and does not depend on a roof for mounting. The best solar panels are set at optimum angles to maximize their energy production. With a ground-mounted system, you can generate more electricity than a roof-mounted system, which will save you money in the long run.
Land properties that were previously undeveloped may not qualify for incentives to support large ground-mounted solar projects. NHESP, or Natural Heritage and Endangered Species Program, may classify portions of the property as valuable wildlife habitat. To help you assess whether your property is suitable for ground-mounted solar installations, the Department of Energy and Environment (DOER) offers a map to assess potential sites. It includes information on local restrictions and incentives for commercial solar projects.
In addition to the advantages of ground-mounted solar panels for commercial energy storage, the panels are also easier to maintain. Ground-mounted solar panels are more accessible and easy to maintain compared to rooftop panels, which often require the dismantling of the entire system to clean. Ground-mounted panels are also more flexible in terms of winter cleaning. You can easily remove snow from the panels and still access the power. This feature makes ground-mounted solar panels a great choice for many types of businesses and organizations.
Using ground-mounted solar panels for commercial energy storage can benefit the local economy and promote local employment. Using livestock to cut grass around the system can replace motorized lawn mowers. Mowing tall grass around solar panels can cast a shade on them and block the sunlight. However, grazing animals enjoy the natural diet of grass and can eliminate the need for fossil fuel-burning mowers. You can also use ground-mounted solar panels as a source of renewable energy.
Ice storage systems
Ice storage tanks are commonly used in a variety of industrial processes, including food, beverage, and pharmaceutical manufacturing. The storage capacity of an ice tank can vary depending on the type of discharge. Ice-making efficiency tests are conducted to verify the storage tank’s capacity. These tests involve determining the optimal discharge rate and operating conditions. The ice storage tanks tested by the Ice Storage Test Facility can store 150 to 200 tons of ice per hour.
The efficiency of ice storage systems is often measured in terms of their load factors, or the percentage of energy consumed to freeze water. Typical load factors range from nine percent to more than 25 percent, depending on the climate and types of loads connected to the system. Comparisons of similar installations can provide guidelines for evaluating the performance of existing systems. However, new systems may not be capable of generating the cold enough to freeze the water.
Packaged A/C with ice energy storage has the benefit of reducing equipment costs. However, it does require additional costs. This paper estimates the system’s efficiency and operating costs. It also presents a generalized control strategy for comparing packaged A/C with ice energy storage to conventional split system A/C. Finally, the paper presents an analysis of cooling capacity and size trade-offs. So, if you want to save energy while lowering costs, then commercial ice storage may be the right solution for your needs.
The Thermal Energy Storage Market: The thermal energy storage market is largely made up of two types of systems: chilled water and ice. Both systems save energy and money by storing energy at night and off-peak. While thermal energy storage is a viable energy conservation strategy, a commercial ice storage system requires less space for storage and requires additional cooling capacity. In addition, thermal energy storage systems can be used to supplement small cooling systems.