Education Facilities

Scale’s advanced microgrids make campuses resilient to energy risks while simultaneously contributing to sustainability goals, with superior reliability, optimized cost savings, and integration of zero-emission solar generation.

Rising Electricity Risks

Educational institutions must provide a safe, productive environment for students and faculty – a challenge amid rising electricity risks.

Annual Hours of Power Outages for Average US End-User

Trendline Average Outage Hours/Year
2014: 3.9hrs; 2015: 3.3hrs; 2016: 4.4hrs; 2017: 8.2hrs; 2018: 5.7hrs; 2019: 4.8hrs; 2020: 7.5hrs; 2021: 7.8hrs; 2022: 5.5hrs; 2023: 6.1hrs; 2024: 11.0hrs.

Average outage hours per year

Hourly Cost of Downtime for Facilities in Selected Industries

Heavy Industry ~$280,000; Plastics ~$160,000; Chemical ~$130,000; Water/Wastewater ~$100,000; Food and Beverage ~$90,000; Metals ~$70,000.

Source: Surveys by ABB and Siemens

US Electricity Consumption, Historic and Projected

Demand poised for first sustained increase in decades

Electricity Consumption Projected
Historic consumption ~3.5–4.0 billion MWh (2000–2023); projected to rise to ~6.3 billion MWh by 2050.

Source: Energy Information Administration, Annual Energy Outlook 2025

Annual Hours of Power Outages for Average US End-User

Trendline Average Outage Hours/Year
2014: 3.9hrs; 2015: 3.3hrs; 2016: 4.4hrs; 2017: 8.2hrs; 2018: 5.7hrs; 2019: 4.8hrs; 2020: 7.5hrs; 2021: 7.8hrs; 2022: 5.5hrs; 2023: 6.1hrs; 2024: 11.0hrs.

Average outage hours per year

Average US outage hours are at their highest level in over a decade, with almost every region of the country experiencing a year with 8 or more hours of outages in recent memory.

Almost 80% of outages are caused by severe weather events, and the number of these outages have doubled over the last decade.  

Hourly Cost of Downtime for Facilities in Selected Industries

Heavy Industry ~$280,000; Plastics ~$160,000; Chemical ~$130,000; Water/Wastewater ~$100,000; Food and Beverage ~$90,000; Metals ~$70,000.

Source: Surveys by ABB and Siemens

Utility rates are skyrocketing, far outpacing inflation with increases of over 25% increase nationally over the past 5 years - and over 50% in the mid-Atlantic, northeast, and California.

The fastest-growing components are demand-based charges (including capacity charges) and fixed costs, challenging traditional energy cost management strategies.

US Electricity Consumption, Historic and Projected

Demand poised for first sustained increase in decades

Electricity Consumption Projected
Historic consumption ~3.5–4.0 billion MWh (2000–2023); projected to rise to ~6.3 billion MWh by 2050.

Source: Energy Information Administration, Annual Energy Outlook 2025


After two decades of minimal demand growth, U.S. electricity consumption is projected to increase by 25% in just the next 5 years, and more than 75% over the next 25.

This boom in demand, driven by growth in data centers, manufacturing, electric vehicle adoption, and more, risks exacerbating today's reliability and cost challenges.

Redefining Resilience

Scale’s advanced microgrids provide fast, automatic transitions to backup power while locking in lower electricity costs, making educational institutions resilient to today’s growing energy risks.

Optimized Cost Savings

Lock in fixed, lower energy costs and adapt to changing rate structures

Enhanced Reliability

Fast transitions to backup power protect your critical operations from disruption

Faster Time-To-Power

Power new facilities or expansions ahead of utility service to avoid delays

Advanced Microgrids

Scale’s advanced microgrids are integrated systems of on-site energy infrastructure, with multiple distributed energy resources (DERs) such as solar, battery storage, and generators, and optimal dispatch via customized controls.

Solar

Typically the cheapest source of kilowatt-hours, solar arrays lower energy costs and improve sustainability by generating zero-emission power from the sun.

Pairing solar with optimized battery storage is key to maximizing its value, particularly where regulations have reduced the value of solar-only systems.

Battery

With or without solar, battery storage lowers energy costs by reducing grid use during the hours of the day, month, and year when utility prices are highest.

Batteries can also provide near- instantaneous transitions to backup power, eliminating disruptions to operations when the grid goes down.

Controls

Microgrid controls optimize dispatch of each resource to maximize value, provide fast, automatic transitions to backup power, and enable speed-to-power for facilities without grid access.

Scale's industry-leading expertise allows us to configure these controls in-house, customizing them to the specific needs of each customer facility.

Generator

Fuel-based generators provide a source of unlimited-duration backup power for extended outages. Generators also provide prime power to off-grid systems.

Scale can integrate existing backup generators or new, low-emission natural gas gensets we design and commission in-house for maximum reliability.

A Higher Education Case Study

Gallaudet University, located in Washington D.C., is the premier institution of learning, teaching and research for deaf and hard-of-hearing students. As part of the university’s ongoing commitment to sustainability, it partnered with Scale Microgrids and local non-profit Urban Ingenuity to build a clean energy microgrid that delivers improved sustainability as well as enhanced resilience and providing economic benefits for the campus and the broader community.

Learn More

The next level of on-site energy.

Backup Generator

Reliability

Advanced Microgrid

True Resilience

Solar

Cost Savings
Unlimited duration backup
Unlimited duration, low-emission backup via multiple DERs
No backup capability
Power lost for seconds/minutes as generator ramps up
Fast, automatic transition ensures no loss of power
No backup capability
An added cost, like insurance
Optimized cost savings every day with solar plus battery storage
Cost savings when sun shines

Full Lifecycle Support

Scale provides advanced microgrids under a microgrid-as-a-service model, under which we take full responsibility for the entire project lifecycle, from design and construction through long-term ownership and operations. 

This service model enables manufacturing industry customers to eliminate up-front costs and minimize risks by leveraging Scale’s industry-leading expertise, proprietary software platform, and capital resources to ensure successful advanced microgrid projects.

Design

Build

Operate