William Kelly Wallace | |
---|---|
Born | 1883 |
Died | 1969 |
Nationality | Irish |
Engineering career | |
Discipline | Civil |
Institutions | Institution of Civil Engineers (president), |
William Kelly Wallace (1883–1969) was an Irish railway engineer who joined the Northern Counties Committee and later became Chief Civil Engineer of the London Midland and Scottish Railway (LMS).
William Kelly Wallace was born in 1883. He joined the Midland Railway Northern Counties Committee (NCC) railway in Ireland in 1906.
Although primarily a civil engineer, he was appointed to the joint positions of Locomotive Engineer and Civil Engineer on the NCC in 1922 when Bowman Malcolm retired.
In collaboration with the Manager, James Pepper, he initiated a renewal programme in which, not only were new locomotives built, but suitable classes of older locomotives would be "heavily rebuilt", in the main following the style of the Midland Railway and, later, the London Midland and Scottish Railway (LMS).
As Civil Engineer, Wallace took over the task of completing the new bridge across the River Bann at Coleraine, County Londonderry from Bowman Malcolm. This opened for traffic in March 1924. He oversaw the installation of colour light signalling at York Road station, Belfast which was commissioned in 1926. This was the first of its kind in Ireland and among the earliest large installations in the United Kingdom.
Wallace devised an innovative method of constructing reinforced concrete bridges using T-section pre-cast concrete beams carried on reinforced concrete piers. Four beams created the bridge deck on to which ballasted track could be directly laid.
In September 1930 he left the NCC to become Chief Stores Superintendent (Euston) on the LMS. In 1934 he became Chief Civil Engineer. Wallace was an advocate of British Standard track and flat-bottom rails and among the works he carried out were extensive trials of flat-bottom track with two types of baseplate on the former Midland and Caledonian mainlines. He also initiated an assessment of continuously welded rail (CWR).