Center for Engineering Innovation (CEI): General information: CEI building is considered as an asset for the University of Windsor. It meets the requirements of students, faculty, and study, industries to interact, and create new ideas that will innovate and inspire the future of sustainable design. This project has been successfully completed on September 7th, 2012 with many engineers hard work. CEI covers an area of 300,000 sq. Feet with 8 classrooms, an auditorium which can hold 350 people, dozens of study rooms and meeting rooms, faculty chambers, 300 plus computer workstations and almost 80 plus research laboratories. Design Information: CEI adopted mostly passive design technologies which include the structure of the building with …show more content…
CEI was built with fiberglass insulation system and rock wool. This insulation material is chemically harmful when they get disturbed in any way and are less efficient. CEI was less efficient with The Termobuild Hollow-core Terminal Air Delivery System. Energy conversion center (ECC) provides only 40% of the total campus needs and the rest of the energy is purchased from third parties, which is expensive. Why is it a problem? CEI is a big building with lot of facilities and people keep roaming everytime, to sustain this and maintain neutral temperature the insulation plays an important role. Here CEI was built with fiberglass insulation system and rock wool.There are many drawbacks using this type of insulation with respect to thermal efficiency. Fiberglass is made up of only 35% recycled glass. A study says, due to air circulation and natural convection, the R-value of blown-in fiberglass insulation decreases by as much as 50% as the temperature drops from 45 degrees F to 18 degrees F.Substantial and well-documented public health threats are associated with fiberglass.Fiberglass insulation is particularly vulnerable to moisture. CEI’s Heat Ventilation and Air Conditioning system couples the passive strategy of thermal mass with a specialized HVAC system. This is done by circulating the air pumped in around the building and change the
For temperature control, the server room relies on the existing building HVAC system with heat exchangers located on the roof of the building. There is one air conditioning vent and one room thermostat serving the server room.
The building was a marvel of modern engineering. A carbon neutral, solar and geothermal powered monument to the future. The outside of the building a sleek combination of recycled redwood and interlocking solar panels. The inside’s high vaulted ceilings and sleek white pillars formed a cavernous inner space. Three classrooms divided the building into working spaces. The bright L.E.D lighting and modern fixtures completed the buildings futuristic design. This building was the newest in a long line of additions to my middle school's campus.
These systems don’t have to be electrical. Using architecture, passive ventilation systems can be created. Wider entrances, wind friendly gates, and passages for cool air to enter and be exchanged with hot air can keep the temperature normal without constant maintenance. These cooling systems can even recycle air already present in the stations. They can take advantage of the gushes and air flows generated by trains as they arrive at the station. Passive ventilation systems can keep stations under acceptable condition using passive or active ventilation systems.
Being environmentally friendly isn’t merely a trend. After thousands of years of using the earth’s resources, we have finally come to realize that we are destroying this beautiful gift we were honored with. Architects play an influential role in trying to preserve this gift by encouraging a multitude of strategies that can be more cost efficient in the long run, be more comfortable for its users, and most importantly, have a lower carbon footprint. Strategies can include drastic changes to heat and air systems, construction material selections, or even specific design details to the architecture of a building that would reduce the amount of energy it consumes.
Asbestos Network defines asbestos as, “A disease cause by exposure to asbestos fibers.” Asbestos fibers are artificially created by humans often use during various man-made construction projects to make stable interiors to create buildings. Asbestos fibers were high in production
This is a gas fuelled heating system, which produces heat to more than one room. This system can also cool your home. This system draws air from inside homes within a heat exchanger for immediate heating and circulation through openings in floors or ceilings of houses. Gas ducted heating has many positives one being that it is highly efficient and cost effective. Also it requires minimal maintenance.
The first step that Holst Architects took to resolve heating system in the building was tightly sealing the envelope of it. In order to make the building efficient, the façade had to be completely sealed to guaranty no heated air leakage. They tested a
Historically, the U.S Navy has been a heavily innovative organization. Nevertheless, internal barriers to innovation adoption still persist today. Because the organization prides itself in maintaining the course as long as possible, our systems often lagged behind in technology. The Navy’s primary core capabilities are forward presence, deterrence, sea control, power projection, maritime security, and humanitarian assistance/disaster response. Each of these capabilities require constant innovation for sustainment. In January 22, 2015, Secretary of the Navy (SECNAV) Ray Mabus announced the establishment of Task Force Innovation (TFI) within the Department of the Navy. His tasking for the TFI includes the “creation of the Department of the Navy's
OK, now let's come to the main topic. In this article, I am going to give priority to the Foilboard. Let's get to know the Foilboard a bit better later. What are the three main types of insulation available in the market today? Batts, Blown-in, and Spry-types are the types of insulation that we knew for a long time. Batt was the earliest form of insulation that came to the world at the beginning of the 19th century. We, humans; made a big mistake by mixing asbestos with batt insulation. I mean, still, we are struggling because of asbestos-contaminated materials. Anyway,
CH₂ heating and cooling system is designed to have a temperature of 21-23°C. It works with a combination of ceiling panels and chilled beams which can be found above the windows. These beams create cool air at around 18°C. Heat is absorbed in the concrete ceilings and through the natural ventilation of the building will be removed. As approximately 70% of the ceiling is curved in shape, there is expected to be a 14% decrease in cooling energy usage by the natural ventilation process. Figure 1 show’s how the cooling of the offices is expected to work.
Contaminated insulation with mold and mildew is dangerous. Also, dealing with wildlife and insect infestation is time and money-consuming.
Asbestos is an association of minerals that is found in clusters of fiber. “These fibers are resistant to heat, fire, and chemicals and do not conduct electricity (National Cancer Institute).” Due to it being resistant
The concept of using radiant and convection heat for comfort has been around since early man. People chose south facing caves because the sun would warm up the rocks during the day and radiate the heat into the cave at night. The flames from a fire also gave off radiant heat. Technology has developed to control radiant and convection heat. Radiant heating and cooling (RHC) systems utilize the surrounding surfaces as heating and/or cooling sources. Generally, RHC systems are systems that radiant heat transfers cover more than 50% of heat exchange within a specified space. Compared to all-air systems, which depend on convection only, the RHC system provides heating and cooling by the combination of radiation and convection in a building. There are three types of radiant floor heating systems. The first type is a radiant air floor, where the air is the heat-transferring medium. The second type is electric radiant floor. The last type is hydronic radiant floor, which uses hot water.
Millions of Americans work in buildings with mechanical heating, ventilation, and air-conditioning (HVAC) systems which have been designed to provide air at comfortable levels of temperature and humidity. Most never worry about harmful concentrations of air pollutants that may exist in the air they breathe. While heating and cooling are basic operations, the more complex processes involved in ventilation are paramount in ensuring high quality indoor air.
This user manual delivers an overall idea of a heating and cooling system which is mainly used for residential house. Heating and cooling can account for more than 40% of a household 's annual energy consumption [1]. High efficiency cooling and heating system is implemented in new housing building in order to reduce energy bills and the amount of greenhouse gases emissions. The proposed system is implemented to house of 4 people. Details are given below: