"water treatment equipment"

Located at the foot of the Cascade mountain range in Chilliwack, the brand-new Molson – Coors was inaugurated in 2019. It has the capacity to produce 300 million litres of beer a year. The brewery is equipped with advanced technologies for operational efficiency, and it is considered Molson’s most modern facility.The plant was designed with optimised equipment layouts that help reduce beer loss and wastage. Hygienic industrial drainage is a major component of the design and ACO drainage was selected for its proven performance.Benefits of ACO StainlessEasy to clean hygienic designStainless steel is highly resistant to corrosionHigh hydraulic efficiency for fast removal of surface waterACO’s experience in drainage for food processing environments

Casa Loma is a Gothic Revival castle-style mansion and garden in midtown Toronto, Ontario, Canada, that is now a historic house museum and landmark. It was constructed from 1911 to 1914 as a residence for financier Sir Henry Pellatt.Part of the renovations carried out was improving the water management on the exterior terrace located at the back of the building. The requirement was for the stormwater to be collected and disposed of efficiently without creating an unsightly 3D grading of the terrace surface. Linear drainage was the natural selection.ACO KlassikDrain KS100 was chosen for its robustness and ability to withstand Canadian weather conditions. The perforated stainless steel grate will resist corrosion and it is AODA and heelproof compliant, important requirements for this public venue.

Four Key Components Constitute Prefinished Sheet Steel Prefinished sheet steel for construction consists of four major components: the sheet steel itself, a metallic (zinc or aluminum-zinc alloy) coating, chemical pre-treatment and primer, and a top coat. Each performs an important role in providing designers with a high quality, aesthetic, cost competitive and corrosion-resistant material. The backbone of the system is sheet steel, an ideal material for covering large surface areas because of its economy and high strength-toweight ratio. Protection against the demanding Canadian environment is provided by the metallic coating, one of the most effective methods of protecting bare steel from corrosion. Both zinc and aluminum-zinc alloy provide a tough, non-porous coating

One of the most common questions asked by homeowners about the installation of their steel roof is whether an underlayment is needed. The answer to this question is “yes” in most situations. The underlayment plays a critical role in controlling the migration of condensation that might develop on the underside of the steel sheet thereby preventing accumulated water entering the building resulting in costly damage.

The new Orlando VA Medical Center needed glazing that would not only provide light and transparency, but fire and hurricane protection and improved energy performance. SuperLite® II-XL in GPX® Hurricane Framing from SAFTI FIRST® was installed in exterior fire-rated locations that were exposed to the elements. These assemblies were rigorously tested and certified for fire and radiant heat protection for up to two hours, large missile impact, air and water infiltration, and cyclic wind loading.

Global warming and climate change are two terms found increasingly in headlines around the world. Initiatives such as the Kyoto Protocol have brought these issues to the forefront and provide a framework and objectives for reducing greenhouse gases (GHG). GHG are heat trapping gases, such as water vapour, carbon dioxide, or methane that absorb the earth’s heat and hinder it from being released into space. As levels of GHG build up in the atmosphere, a greenhouse effect takes place that warms the earth’s atmosphere and makes global climate change inevitable. A?itudes on environmental issues are changing worldwide. Developed nations are commi?ing to reducing GHG emissions to 5.2% below the 1990 baseline by 2012. Notably, Canada has commi?ed to reducing its GHG emissions to 6% below 1990 levels, which corresponds to a gap of 29.1% of where the nation is and where it wants to be. An ambitious undertaking, considering that Canada’s GHG emissions have been steadily on the rise over the years and in 2004 was actually 26.6% higher than 1990 levels. On a positive note, in the last two years emissions have started to decline, but there remains a long way still to go. =e quest for a greener Canada continues and helping to lead the way to a greener Canada is the nation’s steel industry, which is making great strides in reducing GHG emissions, conserving energy, and lessening impacts on our air, water, and land.

Buildings have a profound impact on our natural environment, economy, health and productivity. In North America, the built environment accounts for approximately one-third of all greenhouse gas emissions, energy, water and material consumption and generates similiar proportions of pollution. Indoor air quality is regarded as one of the top environmental health risks today, affecting the well-being, productivity and performance of many people. As concerns increase about sustainability in building design and operation, there is a need to develop a framework for assessing and quantifying buildings so that questions such as, “What is sustainable design?” and “How green is this project?” can be addressed. In response to this, the Leadership in Energy and Environmental Design (LEED) green building rating system was developed to provide such a framework for North America. This document explores how the use of steel structures and components can contribute to achieving a LEED certificate for a building.

The construction industry is a vital part of the growth and success of a country. It is responsible for building the physical infrastructure that provides transportation and facilities for citizens, businesses, industries and institutions. Construction has a major influence on the economic wealth, societal well¬being and sustainability of the built environment. The Canadian construction industry employs more than 1.2 million people. In 2010 it accounted for 6% of Canada’s gross domestic product (GDP), with a total value of 73.8 billion dollars. From 2000 to 2010, the GDP from construction increased 42.7% whereas GDP for all industries increased 20.2%.(1) Construction also has a profound impact on our natural environment. In North America, the built environment accounts for approximately one third of all the greenhouse gas (GHG) emissions, as well as energy, water and materials consumption. Given the increased awareness of “green” construction, there is growing interest in using steel because of the major recycled content and recyclability attributes it provides to architects, engineers and specifiers in the construction industry. The steel industry, through the Canadian Sheet Steel Building Institute is committed to providing steel solutions that promote the use of sustainable materials in construction applications. This fact sheet provides an overview of the two main methods used to produce steel, and describes the recycled content of the steels used to manufacture building products such as roofing, cladding, decking, structural and non-structural framing and the many other construction products used in the industry. Once iron ore is extracted and refined into steel, its life never ends. This makes steel an ideal material to deploy in sustainable strategies for the construction industry. Today’s steel is produced using two technologies both of which require “old” (recycled scrap) steel to make “new” steel. The combination of these technologies enables Canadian steel mills the flexibility to produce a variety of steel grades for a wide range of product applications