University Libraries Break Ground on High-Density Storage Facility

An architectural rendering of what the high-density Library Storage Building will look like when completed.
Courtesy of Perry Dean Rogers

An architectural rendering of what the high-density Library Storage Building will look like when completed.

A high-density storage facility is under construction off Hill Avenue in south Fayetteville, designed to house University Libraries items in a climate-controlled environment. The 27,000-square-foot storage facility will hold approximately 1.8 million volumes when filled to capacity. The facility will also have a preservation and conservation area where materials will be cleaned, repaired and restored, as well as a workspace area for staff.  

University Libraries staff will continue to provide scanned copies of print journal articles, book chapters and similar items for delivery via email within one business day of the request. A courier service will retrieve requested items and bring them to the main campus area four times per day during the week and once per weekend.

Mullins Library was last expanded in 1997, when the student population was around 15,000. The student population in fall 2017 is 27,558 and is projected to continue to rise. The increase in students has resulted in higher demand for study space, collaborative space, and creative workspace. At a time when print use is declining and demand for space is at a premium, the Libraries have the opportunity to free up space and resources in the heart of campus by prudently managing physical collections, thereby allowing for more study and collaborative workspace for faculty and students.

Between 500,000 and 600,000 of the most heavily used items will remain in Mullins Library, including early child and juvenile literature from the Learning Resource Center collection.

Ground was broken for the facility in July of 2017, and construction should be completed by July of 2018. Perry Dean Rogers is the design architect for the facility, and Miller, Boskus, Lack Architects is the architect of record. ConReal is the general contractor.

"The new Library Storage Building represents a new and innovative era for the University Libraries on many levels, but in particular, the LSB will be the first demonstration of mass timber design and construction in the state of Arkansas," said Peter MacKeith, dean of the Fay Jones School of Architecture. "The innovative use of Cross-Laminated Timber panels for the LSB is exceptional and the building overall will be a purposeful, cost-effective and handsome design for its purposes. Dean Allen, the UA Libraries team, and UA Facilities, working with Perry Dean Rogers, Miller Boskus Lack, and many others in the A/E/C team, have produced an admirably innovative and durable addition to the extended UA campus."

Cross-laminated timber, known in the trade as CLT, originated in Germany and Austria in the 1990s, and is a cost-competitive, sustainable, and environmentally friendly alternative to concrete, masonry and steel construction. A CLT panel is constructed of timber planks that are stacked, glued and laminated in perpendicular layers under heavy pressure. The panels are pre-fabricated according to the builder's specifications, then shipped to the building site and assembled, greatly reducing the construction time and eliminating construction waste.

CLT panels offer many advantages over traditional construction methods and materials, including improved dimensional stability to wide and tall construction, such as in the Libraries' storage facility. In addition to providing a higher fire resistance and a higher building hardening rating on the Fujita tornado scale, CLT panels are lighter and thinner than steel and concrete construction, allowing for less massive foundations, structural supports, and roof, all of which make the building more cost effective to build. They also offer sound insulation, long term structural integrity and durability (even rated against earthquakes), and warm more quickly and hold warmth longer than concrete and steel.

"We are very proud to bring the first CLT project ever constructed to the region," said architect Roger Boskus. "The CLT system will provide a secure solid wood box which will aid in protecting the documents stored within this facility. The utilization of CLT is also inherently green. Wood is a renewable resource, which will help the Library Storage Building obtain USGBC LEED Silver certification. The new facility will be clad with stone remnants placed in gabion baskets and charred wood siding giving the exterior a simple elegant appearance in a very cost effective way."

In keeping with the green construction method of the CLT panels, the exterior of the Libraries Storage Building will be fire-hardened wood siding with a base of gabion baskets filled with native stone — all sustainable and environmentally friendly components.

For more information, visit the Storage Facility FAQ webpage. 

Contacts

Kelsey Lovewell Lippard, public relations coordinator
University Libraries
479-575-7311, klovewel@uark.edu

Headlines

Alumni Association Announces the Razorback Classics Class of 2018

The Razorback Classics awards are an integral part of the Senior Awards Program of the Arkansas Alumni Association.

Fort Valley State University to Honor U of A's Boss, Kvamme

Steve Boss, professor of geosciences, and Jo Ann Kvamme, assistant director for the environmental dynamics graduate program, will be honored by Fort Valley State

American Creed Film Screening Intended to Spark Community Conversations

American Creed, a documentary about working across divides to realize American ideals, will be shown from 5:15 to 8:15 p.m. March 1 in the Gearhart Hall Auditorium

Potential Transfer Students Visit Walton College and Learn About Programs, Resources, Curriculum

Forty potential transfer students from NorthWest Arkansas Community College visited the Walton College of Business to learn about programs, resources and curriculum in the college.

New Research: Young Sailors More Dehydrated as Competition Continued

Stavros Kavouras, professor of exercise science, and graduate student Adam Seal worked with colleagues to study hydration in young elite sailors during a multi-day competition.

Newswire Daily