Does Using An Orbital Scrubber Make A Difference?

Education facility managers and administrators struggle to balance limited operational budgets and a need to maintain clean and healthy schools for their students and faculty.

Subject to continuous foot traffic, school floors become soiled quickly and that dirt is tracked throughout the building. Soiled floors not only detract from the overall aesthetics of the facility, but slick dirt and grime can cause slip and fall hazards while dust and allergens adversely impact indoor air quality (IAQ).

Numerous studies have identified poor IAQ as a key contributor to the development of asthma in young people and the spread of other illnesses among students and faculty. These illnesses lead to increased absenteeism, which is directly linked to poorer classroom performance.

Orbital scrubbers allow maintenance teams to maintain a high level of cleanliness with minimal chemical and water usage. By actively removing dirt and grime, as well as the chemical residue that attracts dirt, orbital scrubbers help maintenance staff to keep the school healthier. The introduction of orbital scrubbers has allowed school districts across the country to maximize operational resources, enhance the learning environment while continuing to achieve a high level of appearance that meets the expectations of parents and staff.

While orbital scrubbers achieve a high level of performance for daily scrubbing, these machines also offer the flexibility to be used for deep scrubbing and chemical-free floor finish removal. Traditionally, the deep scrub and recoat process required many hours of labor, multiple machines and harsh chemicals. Orbital scrubbers allow schools to perform this operation with water only — no chemicals — helping schools to enjoy significant budget savings while introducing fewer chemicals in to their facilities.

This article originally appeared in the issue of .

About the Author

Scott Keller is a market manager for Nilfisk, Inc. (www.advance-us.com, www.clarkeus.com). He can be reached at 763/745-3824.

Featured

  • Ancient Resilience: How Indigenous Intelligence Shapes the 4Roots Education Building

    As climate change intensifies, educational spaces must evolve beyond basic sustainability toward true resilience – we must design environments that can adapt, respond, and thrive amid shifting, and intensifying, climate hazards. Drawing on indigenous wisdom and nature-based strategies, integrating resilient design offers a path to create learning environments that are not only functional but deeply in tune with their natural surroundings.

  • Image courtesy of MiEN Company

    6 Ways to Pull Off a Major District Construction Project

    Designing and building a large-scale project on a K–12 campus is a monumental undertaking that requires the right blend of ideas, funding, design and execution to get it right. The process also relies on multiple partners, each of which has to handle its respective aspect of the project while also keeping the district’s broader mission and goals in mind.

  • New Jersey PreK–12 School Breaks Ground on New STEM Building

    Saddle River Day School (SRDS) in Saddle River, N.J., recently announced that it has broken ground on the new Dr. Kristen Walsh Hall of Science & Entrepreneurship, according to a news release. The school partnered with DIGroup Architecture for the design of the new facility, which will provide the school with space to expand its STEM and business education classes.

  • California District Starts Construction on New Robotics Facility

    The Fremont Union High School District (FUHSD) near Silicon Valley, Calif., recently announced that construction has begun on a new Robotics Facility on the campus of Cupertino High School, according to a news release. The 14,500-square-foot facility will serve students at high schools across the entire district, providing purpose-built spaces for student creativity and collaboration.

Digital Edition