LEED Accreditation

Constructing an efficient and cost-effective building in the hospital setting is critical. A new range of architectural solution-oriented techniques have evolved in the last decade. One of the most prominent solutions is constructing green and efficient buildings. Leadership in Energy and Environmental Design, or LEED was developed by the United States Green Building Council as a framework that includes the development of measurable projects of Green building in the country and abroad. Leadership in Energy and Environmental Design accreditation is the most recognized and coveted rating systems in the United States.
LEED Accreditation and its Importance.
The new facility in the hospital requires LEED accreditation. Rad and Gholian (2014) …show more content…
These are sustainable site development, energy efficiency, careful material and supply selection, indoor environmental quality, and efficient water savings. To eliminate the use of potable water for landscaping, the facility will require high-efficiency irrigation technology as a resource. However, the centre can also adopt the use of captured rain or recycled site water to irrigate the landscape; hence, reduce the use of potable water. On the other hand, the facility can opt to use non-CFC-based refrigerants in buildings (USGBC, 2000). This resource increases energy efficiency by reducing the amount of gases and energy that are produced by the building. Therefore, it cuts the depletion of the ozone layer. A renewable technology is another critical resource needed for an organization to become green. LEED urges new facilities such as ours to adopt increasing levels of self-supply by the use of the renewable technologies (USGBC, 2000). This includes using high temperature, solar and geothermal, wind, biomass, and biogas. LEED also place a high emphasis on the use of recycling materials. Management of critical building resources and infrastructure is vital. LEED rewires that the entire project must have Storage & Collection of Recyclables as material pre-requisites (USGBC, 2000). Additionally, they should be built to extend the life cycle of existing building stock such as brick, cement, sand, and to …show more content…
ft. $0.057 /sf $2,850 $0.068 /sf $3,420
Project gross floor area (excluding parking):
250,000 - 499,999 sq. ft. $0.055 /sf $14,250 $0.066 /sf $17,100
Project gross floor area excluding parking):
500,000 - 749,999 sq. ft. $0.050 /sf $27,500 $0.060 /sf $33,000
Project gross floor area (excluding parking):
750,000 sq. ft. or greater Contact GBCI Contact GBCI
Expedited review (reduce from 20-25 business days to 10-12, available based on
GBCI review capacity) $10,000

Interior design and construction fees (U.S Green Building Council, 2017)
Combined Certification Review: Design and Construction Rate Minimum Rate Minimum
Project gross floor area (excluding parking): less than 250,000 sq. ft. $0.038 /sf $1,900 $0.046 /sf

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