Difference between revisions of "Green Roof: Life Cycle Costs"

Green roof located in Toronto, ON. To read more about the life cycle costs and savings associated with building and owning a green roof in the GTA, check out the STEP report "An Economic Analysis of Green Roofs", here. (Photo Source: STEP, 2007^[1]).

Overview[edit]

Green Roofs consist of a layer of vegetation and planting medium installed on top of a conventional flat or sloped roof. Green roofs are touted for their environmental benefits as they improve energy efficiency, reduce urban heat island effects and create greenspace for passive recreation and aesthetic enjoyment. They are also desirable for their water quality, water balance and peak flow control benefits. The green roof acts like a lawn or meadow by temporarily storing rainwater in the planting medium and ponding areas. Excess rainfall enters underdrains and overflow points and is conveyed to a storm sewer or other stormwater practice in the building drainage system. After a storm, a large portion of the stored water is evapo-transpired by the plants, evaporated or slowly drains away. STEP has prepared a life cycle cost estimate for an extensive, 4 inch deep pre-grown sedum mat, green roof design configuration, based on a 2,000 m² roof drainage area for comparison which can be viewed below. To generate your own life cycle cost estimates customized to the development context, design criteria, and constraints applicable to your site, access the updated LID Life Cycle Costing Tool (LCCT) here.

Design Assumptions[edit]

Green roofs are an ideal technology for sites without significant space at ground level for infiltration and high density, zero-lot line developments with outdoor amenity requirements. Green roofs are typically sized based on the available roof area, as opposed to treatment volume requirements. Green roofs are feasible in most greenfield development situations, but should be planned at the time of building design.

Design and operation and maintenance program assumptions used to generate cost estimates are based on tool default values and the following STEP recommendations:

• Building height between 1 and 5 stories.
• Roof length and width of 46.05 metres each, and slope of 2%.
• Includes an EPDM waterproofing membrane.
• Irrigation and leak detection systems are not included.
• Growing medium depth of 4 inches.
• Plants consist of pre-grown sedum mats.
• Operation and maintenance (O&M) cost estimates assume watering six times a year, annual inspections, removal of trash and debris twice a year, and weeding every five years. Verification inspections are included every 5 years to confirm adequate maintenance.

Notes[edit]

• Operation and maintenance cost estimates assume no rehabilitation of the green roof plantings nor waterproofing membrane is required to maintain acceptable drainage performance over the 50 year timeframe.
• The tool calculates costs for new (greenfield) development contexts and includes costs for contractor overhead and profit, material, delivery, labour, equipment (rental, operating and operator costs), hauling and disposal.
  • Land value and equipment mobilization and demobilization costs are not included, assuming BMP construction is part of overall development site construction.
  • Design and Engineering cost estimates are not calculated by the tool and must be supplied by the user.
  • The tool adds 10% contingency and additional overhead as default.
• All cost estimates are in Canadian dollars and represent the net present value (NPV) as the tool takes into account average annual interest and discount rates over the 25 and 50 year operating life cycle periods.
• Unit costs are based on 2018 RSMeans standard union pricing.
• Additional costs associated with retrofit or redevelopment contexts is assumed to be 16% of the cost estimate for new (greenfield) construction contexts.
  • Retrofit construction cost estimates are included in the 'Costs Summary' section for comparison.
    

Construction Costs[edit]

Construction Costs Per Unit Drainage Area (CAD$/m²) - Green Roof: Extensive 4 inch deep sedum mat

Note: Please click on each image to enlarge to view associated construction cost estimates.

Above you can find a breakdown of construction costs by expense type for the 2,000 m², 4 inch deep pre-grown sedum mat green roof design configuration.

Material & Installation expenses represent the largest portion of total construction costs (85%).

Life Cycle Costs[edit]

Below are capital and life cycle cost estimates for the extensive, 4 inch deep sedum mat green roof design configuration over 25- and 50-year time periods. The estimates of maintenance and rehabilitation (life cycle) costs represent net present values. Operation and maintenance costs are predicted to represent 12% of total life cycle costs over the 25-year evaluation period, and increase to 18% of total life cycle costs over the 50-year period.

25-Year life cycle cost break down[edit]

Green Roof: Extensive 4 inch deep sedum mat

Note: Click on each image to enlarge to view associated life cycle cost estimate.

50-Year life cycle cost break down[edit]

Green Roof: Extensive 4 inch deep sedum mat

Note: Click on each image to enlarge to view associated life cycle cost estimate.

Cost Summary Tables[edit]

Total life cycle cost estimates for the extensive 4 inch deep sedum mat green roof design configuration is $927,010 making it one of the most expensive LID BMP options. This is due to the costs of expensive components such as waterproofing membrane and flashing, roof insulation required, drainage layer and filter cloth, growing medium, the plants themselves and crane requirements for construction.

Extensive 4 inch deep sedum mats[edit]

Generalized cross-section view of a green roof showing key components and common layers that make up this LID BMP (TRCA, 2018).^[2]

References[edit]