Industrial
Waste Water Treatment Plant
Stability check of Stack 2 at Water Treatment Plant SUEZ
Sydney Water Monorail Design
Suez Water Treatment Plant Prospect
36 Tonne Drum Screen Support at SUEZ
Industrial Steel Structure
Steel Truss Frame and Guy Wire Foundation
-
Waste Water Treatment Plant
Design, Documentation and Certification of the Waste Water Treatment Plant, Lithgow, New South Wales. -
Stability check of Stack 2 at Water Treatment Plant SUEZ
Stability check and leak repair of Stack 2 and Water Treatment Plant at SUEZ -
Sydney Water Monorail Design
Design and Certification of monorails from 500kg to 2000kg capacities for the Sydney Water Project at West Camden. -
Suez Water Treatment Plant Prospect
Chlorine arm design report for Water Treatment Plant at Suez. -
36 Tonne Drum Screen Support at SUEZ
Design of steel frame support to lift 36 tonne Drum Screen shaft to repair bearings and housing at both supports. -
Industrial Steel Structure
This is short description
It is a long established fact that a reader will be distracted by the readable content of a page when looking at its layout. The point of using Lorem Ipsum is that it has a more-or-less normal distribution of letters, as opposed to using 'Content here, content here', making it look like readable English. Many desktop publishing packages and web page editors now use Lorem Ipsum as their default model text, and a search for 'lorem ipsum' will uncover many web sites still in their infancy. -
Steel Truss Frame and Guy Wire Foundation
Span Consulting Engineers (SpanCE) was engaged by Satake Australia to design a specialized steel gantry frame spanning over two silos at their Millmerran, QLD facility. The structure was designed to support screw feeder equipment while providing safe maintenance access for operators. Additionally, SpanCE was tasked with designing robust foundations for critical guy wire supports to ensure structural stability of the associated equipment. Our engineering team conducted a thorough structural analysis to develop an optimized steel frame design that could safely accommodate the operational loads of the screw feeder system while meeting all relevant Australian standards. The design incorporated appropriate safety factors, considering both static and dynamic loading conditions. For the guy wire support system, SpanCE engineered a solution to restrain a 24m high bucket elevator. The design featured four strategically positioned guy wires to control lateral movement of the slender elevator structure. Each guy wire support consisted of two bored piles with engineered footings designed to resist the calculated tensile forces under various operational and environmental conditions.














