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Green Building Construction Masonry COURSE DESCRIPTION: Fundamentals of Green Building Design and Construction. COURSE OBJECTIVES: 1 The purpose of this course is to give the student an overview of design and construction delivery systems for high performance green buildings. The US Green Building Council (USGBC) Leadership in Energy and Environmental Design (LEED) will be reviewed in some detail along with sustainability evaluation systems, the vocabulary associated with green buildings, and an understanding of the physical limitations of the materials studied. Construction Materials and Processes Examines the materials used to construct a variety of structures, highways, utilities, and residential buildings. Includes terminology; interpretation of plans; and specifications to assure that correct materials are ordered, applied, and utilized. Methods of identifying materials delivered to the job site, methods of handling, (Quality Control) procedures for testing, and inspection of private and government work will be emphasized. Special emphasis will be given to the relationship of each material to the Uniform Building Codes. Building Green Buildings - The Contractor's Perspective: The purpose of this course is to provide construction professionals with information that will help them to effectively bid, contract, build, and close out green building projects. We will explore the green building process from the contractor's and subcontractor's point of view. You will learn how to work with an outside commissioning authority to complete the job. New Construction - Applying the Guidelines. The course reviews the Leadership in Energy and Environmental Design (LEED) Credit System. The foundation of the course will identify and help to understand the objectives of sustainable sites, water efficiency, energy and atmosphere, materials and resources, indoor environmental quality, and innovation and design process credits and prerequisites. Focus is placed on a systematic view of green building, sustainability, low-impact development, and storm water issues. Green Building Commissioning This course studies techniques to achieve the goals of green building standards during and beyond the construction of the building. It reviews the make-up of smart buildings and the incorporation of commissioning throughout the building lifecycle. Students will learn to identify and understand the objectives of integrated systems into building automation and the use of commissioning to verify the system performance. Focus is placed on understanding the interrelationship between the systems and monitoring for peak performance. Basic material Information: Industrial materials recycling also referred to as beneficial use, means reusing or recycling byproduct materials generated from industrial processes. These materials can be used as substitutions for raw materials in the manufacture of consumer products, roads, bridges, buildings, and other construction projects. Thousands of manufacturing and industrial processes and electric utility generators create hundreds of millions of tons of non-hazardous industrial materials that are often wasted. Non-hazardous industrial materials, such as coal ash, foundry sand, construction and demolition materials, slags, and gypsum, are valuable products of industrial processes. Each material may be recycled in a variety of diverse applications. These materials have many of the same chemical and physical properties as the virgin materials they replace — they can even improve the quality of a product. For example, the use of coal fly ash can enhance the strength and durability of concrete. Putting these commodities into productive use saves resources and energy, reduces green-house gas emissions, and contributes to a sustainable future. Industrial materials recycling: 2 Preserves our natural resources by decreasing the demand for virgin materials; Conserves energy and reduces greenhouse gas emissions by decreasing the demand for products made from energy intensive manufacturing processes; and saves money by decreasing disposal costs for the generator and decreasing materials costs for end users. Used Tyre construction Earth Brick and Block structures Earth Quake resistant footing, using green materials Modest home footing: Using a light weight, accurate, aluminium form, for building a versatile style reinforced beam footing, would be the cheapest and easiest method in building an earth quake resistant compressed earth home. Using precision pressed blocks along with a precision, reinforced footing would help in building high quality structures. COURSE DESCRIPTION Sample: 30 day course: Green Earth Brick, and Block, Masonry: 1Sample- Onsite Training: • Tools Used in the Masonry Field: • Task for a career as a professional licensed Green Mason. • Identify hand tools used for working with masonry • Definition: Process should include the following: • Identify uses for common hand tools used in the masonry field: • Identify uses for specialized hand tools used for working with masonry select proper hand tools for specific tasks related to working with green materials Masonry: • Process/Skill Questions • identify power tools used for working with masonry • Definition: Process should include the following: • Identify uses for common power tools used in the masonry field • Identify uses for specialized power tools used for working with masonry • Select proper power tools for specific tasks related to working with Masonry: Process/Skill Questions: • Performing Entry-Level Brick Masonry • Task • Dry Bond a brick course • Definition: Process should include the following: • Demonstrate techniques for maintaining joint spacing for a dry bond • Dry bond a course of brick with 3/8" (one centimeter joints) • Adjust a dry bond brick course Process/Skill Questions: • Spreading mortar for block and brick • Definition: Process should include the following: Demonstrate techniques for cutting mortar from a mortar board and pan Demonstrate techniques for loading a trowel with mortar. 3 Examples of practical recycling applications include: Concrete and asphalt crushed and used as an aggregate in pavements or as structural fill; Coal fly ash, slag, and spent foundry sand recycled in concrete, road embankments, and flowable fill; Coal ash used in the manufacture of cement and ceiling tiles Flue gas desulfurization gypsum, foundry sand, and pulp and paper by-products used in manufactured soil and agricultural building materials. Instructor – James F Hayden: MSc construction Management, Certified Licensed, registered masonry Engineer Information Technologists MIA This onsite training is aimed at not only resident project representatives on construction projects, but also project managers, contract administrators, architects, engineers, owners, and supervisory and field management personnel. The focus is on the resident project representative and his interaction with all these parties and the problems they encounter and must resolve. The training analyses the construction process to include project delivery systems, documentation, responsibilities, authorities, specifications, preconstruction operations, scheduling, construction operations, risk allocation, and information technology. Attendees will learn procedures and contract specification language that help minimize disputes and avoid claims. 4