View
1
Download
0
Category
Preview:
Citation preview
Supporting Document 2 Alternative Methods Report – Assessment
of Landfill Footprint Alternatives
Waste Management of Canada Corporation
West Carleton Environmental Centre Landfill Footprint Expansion
ALTERNATIVE METHODS REPORT – ASSESSMENT OF LANDFILL FOOTPRINT ALTERNATIVES
DRAFT FOR DISCUSSION AND COMMENT
Prepared by:
AECOM Canada Ltd.
Project Number:
60242342-1
Date:
February, 2012
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
T a b l e o f C o n t e n t s Page
1. Introduction ......................................................................................................... 1
1.1 Background .......................................................................................................... 1
2. Identification of the Envelopes for Potential Development ............................ 3
2.1 Land Ownership ................................................................................................... 3 2.2 Existing Natural Environment Features ................................................................ 3 2.3 Land Use Constraints .......................................................................................... 5
2.3.1 City of Ottawa Official Plan ....................................................................... 5 2.3.2 City of Ottawa Comprehensive Zoning By-Law (2008-250) ...................... 9
2.4 Perimeter Buffer Zones ...................................................................................... 10 2.5 Landfill Footprint Envelopes ............................................................................... 10
3. Generation and Evaluation of the Alternative Methods ................................ 11
3.1 Overview ............................................................................................................ 11 3.2 Generation of Landfill Footprint Options ............................................................. 11
3.2.1 Conceptual Design of Landfill Footprint Options ..................................... 14 3.2.2 Description of the Landfill Footprint Options ........................................... 22 3.2.3 Landfill Footprint Option 1 ...................................................................... 23 3.2.4 Landfill Footprint Option 2 ...................................................................... 25 3.2.5 Landfill Footprint Option 3 ...................................................................... 26 3.2.6 Landfill Footprint Option 4 ...................................................................... 28
3.3 Summary of Landfill Footprint Options ............................................................... 29 3.4 Assessment of the Alternative Methods ............................................................. 31
4. Net Effects Analysis ......................................................................................... 37
4.1 Landfill Footprint Option #1 ................................................................................ 37 4.1.1 Net Effects Analysis ............................................................................... 37
4.2 Landfill Footprint Option #2 ................................................................................ 53 4.2.1 Net Effects Analysis ............................................................................... 53
4.3 Landfill Footprint Option #3 ................................................................................ 69 4.3.1 Net Effects Analysis ............................................................................... 69
4.4 Landfill Footprint Option #4 ................................................................................ 84 4.4.1 Net Effects Analysis ............................................................................... 84
5. Comparative Evaluation Results ................................................................... 101
5.1 Overall Landfill Footprint Option Rankings ....................................................... 118
6. Summary ......................................................................................................... 120
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
List of Figures
Figure 1.1 Study Area ........................................................................................................... 2
Figure 2.1 Study Area Constraints ........................................................................................ 4
Figure 2.2 Official Plan Designations .................................................................................... 6
Figure 2.3 Carp Road Corridor Community Design Plan ....................................................... 7
Figure 2.4 City of Ottawa Comprehensive Zoning By-Law (2008-250) .................................. 9
Figure 3.1 Landfill Footprint Option #1 ................................................................................ 12
Figure 3.2 Landfill Footprint Option #2 ................................................................................ 13
Figure 3.3 Landfill Footprint Option #3 ................................................................................ 15
Figure 3.4 Landfill Footprint Option #4 ................................................................................ 16
Figure 3.5 Cross Sections A-A’ (for Option #1) and B-B’ (for Option #2) ............................. 24
Figure 3.6 Cross Sections C-C’ (for Option #3) and D-D’ (for Option #4) ............................ 27
Figure 3.7 Alternative Methods Process.............................................................................. 31
Figure 4.1 Option #1 Impact on Vegetation Communities ................................................... 43
Figure 4.2 Option #1 Impact on Wildlife and Aquatic Features ............................................ 44
Figure 4.3 Option #1 Impact to Tributaries .......................................................................... 45
Figure 4.4 Option #1 Impact on Cultural Heritage Resources ............................................. 47
Figure 4.5 Option #1 Impact on Archaeological Resources ................................................. 48
Figure 4.6 Option #1 Impact on Agriculture ......................................................................... 51
Figure 4.7 Option #2 Impact on Vegetation Communities ................................................... 59
Figure 4.8 Option #2 Impact on Wildlife and Aquatic Features ............................................ 60
Figure 4.9 Option #2 Impact on Cultural Heritage Resources ............................................. 62
Figure 4.10 Option #2 Impact on Archaeological Resources ................................................. 64
Figure 4.11 Option #2 Impact on Agriculture ......................................................................... 67
Figure 4.12 Option #3 Impact on Vegetation Communities ................................................... 74
Figure 4.13 Option #3 Impact on Wildlife and Aquatic Features ............................................ 75
Figure 4.14 Option #3 Impact on Cultural Heritage Resources ............................................. 77
Figure 4.15 Option #3 Impact on Archaeological Resources ................................................. 79
Figure 4.16 Option #3 Impact on Agriculture ......................................................................... 81
Figure 4.17 Option #4 Impact on Vegetation Communities ................................................... 90
Figure 4.18 Option #4 Impact on Wildlife and Aquatic Features ............................................ 91
Figure 4.19 Option #4 Impact to Tributaries .......................................................................... 92
Figure 4.20 Option #4 Impact on Cultural Heritage Resources ............................................. 94
Figure 4.21 Option #4 Impact on Archaeological Resources ................................................. 95
Figure 4.22 Option #4 Impact on Agriculture ......................................................................... 98
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
List of Tables Table 2.1 Official Plan Designations and Permitted Uses .................................................... 8
Table 3.1 Comparison of Footprint Options ....................................................................... 29
Table 5.1 Comparative Evaluation Results ...................................................................... 102
Attachments
Attachment A. Conceptual Design Report
Attachment B. Landfill Footprint Net Effects Table
Attachment C. Comparative Evaluation Technical Memorandums
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
1
1. Introduction
1.1 Background
Waste Management of Canada Corporation (WM) is preparing an Environmental Assessment
(EA) for a proposed undertaking consisting of the provision of a new landfill footprint at the
existing Ottawa Waste Management Facility (Ottawa WMF). WM has undertaken and received
approval of a Terms of Reference (ToR) for identification and assessment of a new landfill
footprint as part of the WCEC. From the analysis presented in Supporting Document #2 –
Alternatives To the Undertaking, of the approved ToR, WM identified Alternative 3 – Close the
current landfill and establish new landfill disposal capacity at the West Carleton
Environmental Centre (WCEC) as the preferred Alternative To the Undertaking. Identification
and evaluation of “Alternative Methods” or different ways that the project can be developed is a
key element of the EA process. For example, the proposed new landfill footprint for residual
waste could be constructed in different locations and configurations (size, height, etc.) at the
WCEC.
The new landfill footprint will be one component of the proposed West Carleton Environmental
Centre (WCEC). The approved ToR identified a study area, within which alternative methods
would be identified for consideration in the EA. The study area is bounded on the southeast
and southwest sides by Highway 417; on the northeast by Carp Road; and on the northwest by
Richardson Side Road. The study area is bisected by William Mooney Road to the southwest of
the existing Ottawa WMF (Figure 1.1). The existing Ottawa WMF landfill is located on Lots 3
and 4, Concession 3 in the former Township of Huntley, formerly in the Township of West
Carleton, now the City of Ottawa near the intersection of Carp Road and Highway 417. The
lands within the study area are contiguous with the existing Ottawa WMF, owned and operated
by WM.
The purpose of this document is to present the generation and evaluation of alternative landfill
footprints and provide the rationale for the selection of the preferred landfill footprint.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
2
Figure 1.1 Study Area
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
3
2. Identification of the Envelopes for Potential Development
During the ToR phase, preliminary development envelopes were identified within the study area
within which landfill footprint alternatives and other non-landfill components of the WCEC could
be located. Two distinct development envelopes, located North and West of the existing landfill,
were included in the ToR, which was approved in November 2010.
During Open House #1 of the EA, these footprint development envelopes were confirmed and
presented to the public.
WM considered the following constraints when determining appropriate landfill footprint
envelopes:
WM ownership of land or option to purchase land;
Existing natural environment features;
Land use constraints; and,
Perimeter buffer zones.
Figure 2.1 shows the application of these site-specific factors within the study area. The
following sections describe the application of the site-specific factors within the development
envelopes.
2.1 Land Ownership
WM owns or has options to purchase a large portion of the lands within the study area. These
lands are shaded in grey on Figure 2.1, and include land to the northeast and southwest
immediately adjacent to the existing Ottawa WMF (hereafter referred to as the “north envelope”
and “west envelope” respectively). The land within the study area that WM does not own or
have the option to purchase is shaded in red on Figure 2.1.
2.2 Existing Natural Environment Features
A preliminary inventory of existing natural heritage features within the study area was carried
out to determine any land that should be excluded from potential development. The desktop
inventory of existing natural features was completed using interpretation of aerial photography,
existing natural environment information, and other baseline studies.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
4
Figure 2.1 Study Area Constraints
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
5
Of note, the Goulbourn Wetland Complex is a provincially significant wetland complex in the
southwestern portion of the Study Area. This wetland is protected under the provincial Planning
Act and the Provincial Policy Statement from any development or site alteration. In addition, the
City of Ottawa Official Plan (2003, Consolidated 2007) requires that any development within
120 m of the boundary of a designated wetland undertake an Environmental Impact Statement
(EIS).
Existing databases show that there are butternut trees (Juglans cinerea) within the study area.
Butternut is listed as an endangered species under the provincial Endangered Species Act and
the federal Species at Risk Act.
A number of ditches and channels exist within the Study Area. Under the federal Fisheries Act,
no project may create a “harmful alteration, disruption or destruction” (also known as a HADD)
of fish habitat, unless authorized by the Minister. Further in relation to watercourses, under the
generic regulations of the Conservation Authorities Act, incompatible development is normally
prohibited within 15 m of any floodplain, wetland, river valley, or meander belt. To the north of
the existing Ottawa WMF, there are two on-line (i.e., connected to other tributaries) unevaluated
wetlands.
2.3 Land Use Constraints
2.3.1 City of Ottawa Official Plan
The existing Ottawa WMF lands are designated Solid Waste Disposal Site, Sand and Gravel
Resource Area, and Carp Road Corridor Rural Employment Area in the City of Ottawa Official
Plan (2003, Consolidated 2007) (see Figure 2.2). Within the Carp Road Corridor Community
Design Plan, these lands are designated as Heavy Industrial Area and Solid Waste Disposal
Site (see Figure 2.3).
The north development envelope is designated as Carp Road Corridor Rural Employment Area.
Within the Carp Road Corridor Community Design Plan, this land is designated as Light
Industrial Area.
Most of the west development envelope is designated General Rural Area, and the Goulbourn
Wetland Complex is designated Significant Wetlands. Uses permitted within these designations
are outlined in Table 2.1.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
6
Figure 2.2 Official Plan Designations
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
7
Figure 2.3 Carp Road Corridor Community Design Plan
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
8
Table 2.1 Official Plan Designations and Permitted Uses
Designation Permitted Uses
Existing
Ottawa WMF
Carp Road Rural Employment Area Rural industrial and commercial uses.
Heavy Industrial Area (Carp Road
Corridor Community Design Plan)
Heavy industrial uses involving the manufacturing of
products from local primary materials, quarry, abattoirs,
salvage yards, sawmills.
Sand and Gravel Resource Area Pits and wayside pits and related uses such as portable
asphalt plants.
Solid Waste Disposal Site Solid waste disposal sites.
North
Development
Envelope
Carp Road Rural Employment Area Rural industrial and commercial uses.
Light Industrial Area (Carp Road
Corridor Community Design Plan)
May include light manufacturing plants, distribution,
recycling and assembly plants, warehouses, service and
repair shops, research, design and testing facilities,
storage uses, transportation depots, contractor or
construction related uses, and compatible public and
institutional uses.
West
Development
Envelope
General Rural Area Without a Zoning By-law Amendment:
Agricultural uses, forestry and conservation, and natural
resource management activities; Residential uses; Animal
boarding, breeding, and training facilities, including
stables; Bed and breakfast establishments; Open space;
Cemeteries.
With a Zoning By-law Amendment:
New industrial and commercial uses, such as farm
equipment and supply centres, machine and truck repair
shops, building products yards, landscape contractors,
and nurseries; Uses that are noxious, such as salvage or
recycling yards, composting or transfer facilities, concrete
plants, the treatment of aggregate products, and abattoirs;
New recreational commercial and non-profit uses, such as
golf courses, driving ranges, mini putt operations,
campgrounds, outdoor theme parks, and sportsfields;
New sand and gravel pits and underground mining for any
mineral resources; Other new non-residential uses which
are in keeping with the rural character or those uses that
meet the needs of the traveling public, such as a
restaurant, gas station, motel, and retail (up to 1,000 m2
gross leasable area); New institutional uses such as
places of worship and schools; Country lot subdivision.
Significant Wetlands No development or site alteration is permitted except for
open air recreation; scientific, educational, or conservation
uses associated with the environmental features; existing
agricultural operations; forestry. Single detached dwelling
and accessory building, subject to conditions.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
9
2.3.2 City of Ottawa Comprehensive Zoning By-Law (2008-250)
The lands within the study area have ten different zonings under the City of Ottawa
Comprehensive Zoning By-law (2008-250). These zonings are shown in Figure 2.4, and are
described in the following subsections for the existing Ottawa WMF lands, the west
development envelope, and the north development envelope.
Figure 2.4 City of Ottawa Comprehensive Zoning By-Law (2008-250)
Both landfill envelopes would require an amendment to the Official Plan and zoning by-law for
the landfill footprint component of the WCEC.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
10
2.4 Perimeter Buffer Zones
If the EA is approved, WM must ensure the landfill area is completely surrounded by a buffer
area. A proposed buffer from property lines of 100 m is shown in Figure 2.1.
2.5 Landfill Footprint Envelopes
As previously mentioned, two distinct development envelopes within the study area in relation to
the existing Ottawa WMF were identified during the ToR stage. These envelopes are referred
to by their proximity to the Ottawa WMF, namely to the west of William Mooney Road and to the
north of the existing Ottawa WMF.
As a result of the constraints review, the north and west envelopes were identified in the ToR as
the areas within which the “Alternative Methods for Carrying out the Undertaking” would be
analyzed in the EA. In the ToR, WM proposed to complete a comparative evaluation with
respect to the landfill footprint envelopes and then generate landfill footprint options within the
preferred envelope:
“Once the selection of the preferred landfill envelope has been determined in the
EA, alternatives will be identified during the EA within the preferred envelope.”
(Approved ToR, Section 6.5, pp. 35).
After reviewing the initial information collected and reviewed as part of identifying the study area
constraints/ potential landfill envelopes, WM determined that both envelopes were suitable for
identifying potential landfill footprints. Locating a potential landfill footprint is possible for both
envelopes, as no discernible differences between the two envelopes that would prevent
development of a landfill footprint were identified. Therefore, WM embarked on generating
potential landfill footprint options within each of the envelopes. This approach was presented at
Open House #1 and Workshop #1 of the EA. Further discussion on the generation of landfill
footprint options is provided in Section 3 of this report.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
11
3. Generation and Evaluation of the Alternative Methods
3.1 Overview
The methodology for generating and evaluating the Alternative Methods is composed of the
following:
Generate Alternative Methods
Assessment of the Alternative Methods (including a Comparative Evaluation
of the Alternative Methods)
Identification of the Preferred Alternative Method
3.2 Generation of Landfill Footprint Options
Using the existing conditions information collected as part of identifying the envelopes for
potential development, alternative landfill footprints were generated at a conceptual level of
design. Initially, two alternative landfill footprint options were generated and developed for
presentation to the public. These alternative landfill footprint options were presented to the
Public at Workshop #1.
WM developed preliminary options for landfill footprints within each of the envelopes for
discussion (see Figures 3.1 and 3.2). The footprints were generated using the following basic
design parameters:
Size ................... 6.5 million m3 (as per the approved ToR)
Height ............... Between approximately 27 and 33 m
Side Slopes ...... 4:1
For comparison purposes, the existing Ottawa WMF has the following design parameters:
Size ................... 8.7 million m3
Height ............... Approximately 47 m
Side Slopes ...... 3:1
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
12
Figure 3.1 Landfill Footprint Option #1
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
13
Figure 3.2 Landfill Footprint Option #2
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
14
After presenting the initial two landfill footprint options at Workshop #1, WM received feedback
from the public that two additional footprints should be considered in the comparative
evaluation. One option was a variation on the northern footprint and the other was presented as
a hybrid between the two landfill envelopes, or a “wrap-around” to the existing Ottawa WMF.
Both of these landfill footprint options (see Figures 3.3 and 3.4) were accepted by WM as
potentially viable options to be carried forward in the assessment of alternative landfill footprint
options.
3.2.1 Conceptual Design of Landfill Footprint Options
Once WM confirmed that the 4 options would be carried forward for evaluation, further details
were completed with respect to each of the landfill footprint options. This detail was contained
within a Conceptual Design Report (See Attachment A). The four alternative landfill footprint
options have been developed to a conceptual level of detail to enable a comparative analysis.
The conceptual design focused on identifying characteristics that could be used to differentiate
the footprints from one another. At this stage, limited work was undertaken on identifying the
characteristics that would reasonably be similar for all footprints. The footprint characteristics
that were developed and utilized for comparative evaluation purposes included the following:
Location within the development envelopes including buffer zones to property
boundaries and sensitive environmental features;
Configuration of side slopes and height;
Estimated traffic levels;
Leachate generation rate; and,
Other design and operational assumptions.
A series of criteria and assumptions were established to guide the development of footprint
options within the West and North envelopes. These include WM’’s projected residual waste
disposal capacity requirements (as approved in the ToR), regulatory requirements relating to
landfill design geometry, as well as some of the constraints used in the ToR for identifying the
development envelopes. In addition, assumptions were made relating to operational traffic
levels, leachate generation rates, and aspects of site design and operations based on the
existing site, other WM sites and professional judgement.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
15
Figure 3.3 Landfill Footprint Option #3
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
16
Figure 3.4 Landfill Footprint Option #4
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
17
3.2.1.1 Landfill Capacity
The landfill airspace requirement has been estimated at 6.5 million m3, which includes daily
cover material, as noted in the approved ToR. The airspace requirement estimate is the same
for all footprints considered and is based on the following:
400,000 T/yr over a 10 year period equates to a total waste tonnage of
4,000,000 T.
In-place waste density has been estimated as 0.725 T/m3. Waste density is
influenced by numerous factors including waste type and operating methods,
although this value is considered reasonable for a large, modern landfilling
facility. At this density 4,000,000 T corresponds to a waste volume of
5,517,000 m3.
A waste to daily cover ratio of 6:1 (approximately 15%) based on WM
operating experience which provides a balance between the efficient use of
cover material and the appropriate amount for managing potential nuisance
effects. At this ratio the total volume of daily cover soil would be 920,000 m3.
The total volume of waste and daily cover based on these parameters is
6,437,000 m3. For planning purposes the required airspace requirement was
approximated as 6,500,000 m3.
Additional airspace will be required for the final cover material used to close
the landfill site.
3.2.1.2 Footprint Geometry and Location
O. Reg. 232/98 (amended to O. Reg. 483/98), Landfilling Sites and the accompanying
Landfilling Standards Guideline specify requirements and/or provide recommendations for key
landfill design parameters. The parameters identified in the regulation relevant to the
development of footprint options include the following.
Buffer Zones
The regulatory requirements specify a 100 m wide buffer area between the edge of the waste
footprint and the site boundary, but allow this to be reduced to a minimum of 30 m if it is shown to
be appropriate based on a site specific assessment (e.g., if the buffer provides adequate space
for vehicle movements, ancillary facilities, and ensures that potential effects from the landfill
operation do not have unacceptable impacts outside of the site). The footprint options were
developed maintaining 100 m buffers between the edge of the footprint and the boundaries of WM
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
18
owned/optioned property, but were reduced to 30 m in some specific cases. The basis for
applying a 30 m buffer is provided as part of the description for each landfill footprint.
The Goulbourn Wetland Complex is a Provincially Significant Wetland (PSW) located in the
southwestern portion of the West Envelope. This wetland is protected under the provincial
Planning Act and the Provincial Policy Statement from any development or site alteration. In
addition, the City of Ottawa Official Plan (2003, Consolidated 2007) requires that any
development within 120 m of the boundary of a designated wetland undertake an Environmental
Impact Statement (EIS). As such, 120 m was used as a minimum buffer between the landfill
footprint and the wetland complex in the West Envelope. This buffer requirement is also
regulated under the Conservation Authorities Act and managed by the Mississippi Valley
Conservation Authority.
For all footprints considered it has been assumed that WM will acquire all of the lands that it
currently has an option to purchase.
Final Slopes
The regulatory requirements specify a maximum slope of four units horizontal to one unit
vertical (4H to 1V) and a minimum slope of 20H to 1V (5%) but allow variance where it can be
shown to be appropriate. The footprint options were developed in adherence to the specified
maximum/minimum slope requirements.
Landfill Height
There are no regulatory requirements specifically constraining landfill height, although maximum
height is indirectly governed by regulatory requirements to ensure that adequate foundation
conditions exist and that slopes are stable. In developing footprint options, WM initially assumed
the top of waste elevation to be approximately 153 mASL (which is approximately 28 m above
existing surrounding grade) in order to minimize the visual and other impacts of the new landfill.
By comparison, the maximum elevation of the existing Ottawa WMF landfill is approximately
172 mASL or approximately 47 m above the surrounding ground surface. However, landfill height
is also influenced by assumed depth of excavation, as discussed below. Subsurface conditions
will be evaluated in more detail and confirmed once a preferred footprint is chosen.
Depth of Excavation
There are no regulatory requirements specifically constraining landfill excavation depth,
although subsurface conditions (e.g., shallow bedrock and high water table) in the study area
dictate a relatively shallow base excavation. Initially it was assumed that that the base of the
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
19
landfill (e.g., bottom of waste) would be at grade, and that the liner and leachate collection
system would be situated below grade. It is assumed that the liner and collection system will
consist of the O. Reg. 232/98 Generic II cross-section (discussed further below) which is 3.1 m
thick, and thus it was anticipated that the excavation depth would be at least 3.1 m.
Additional information regarding groundwater conditions in the north and west footprint
envelopes has been obtained since initial landfill concept development. Water table elevations
in the north and west footprint envelopes vary but in many places are close to grade.
Consequently the depth of excavation will be less than initially anticipated, which in turn
influences landfill height. Subsurface conditions (including potential excavation depth) will be
evaluated and confirmed once a preferred footprint is identified.
3.2.1.3 Traffic Levels
Truck traffic associated with the landfill facility is important in assessing the potential impacts of
the site on various receptors. For the purposes of this comparative analysis the traffic levels
have been estimated as follows:
Each footprint option is projected to have waste receipts of up to 400,000 T/
year for a 10 year period. As such the traffic associated with waste and daily
cover loads would be equal for all options. A traffic analysis was conducted
for the existing WMF landfill in 2006. WMF landfill operations in 2005
reflected receipt of approximately 400,000 tonnes of waste, including daily
cover, and thus the 2005 traffic levels are seen as generally comparable to a
future landfill operation of this magnitude.
Soil and granular materials will need to be imported to the site to construct
the base liner, leachate collection system, and final cover. Volumes of
construction material will vary somewhat for each footprint because the
footprint sizes vary. A preliminary estimate was made of the truck traffic
associated with the importation of construction materials for each footprint.
Estimated traffic levels for each footprint option are presented in Section 3.2.2 and are
supported by calculations summarized in Attachment A.
Other site traffic will be considered in the detailed impact assessment of the preferred landfill
footprint alternative.
3.2.1.4 Leachate Generation Rate
Leachate generation rate is an important parameter used in assessing the operational and
environmental performance of a landfill site. It will vary over the operational and post-closure
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
20
period of the facility and is influenced by factors including precipitation, degree of landfill
development (e.g., area of landfill that is actively undergoing development versus areas where
final cover has been placed), final cover design, and other factors.
For the purposes of facilitating a comparative analysis of the proposed landfill footprints, an
approximate range of leachate generation rates for each footprint have been calculated based
on the following:
Leachate generation rates will vary according to the size of the landfill
footprint;
The landfill footprint is assumed to have been fully closed;
The final cover design is reflective of the minimum design specified in O.
Reg. 232/98, consisting of 0.6 m of compacted fine-grained soil overlain by a
0.15 m thick vegetative layer; and,
Post closure leachate generation rates for each footprint were estimated
using the Hydrologic Evaluation of Landfill Performance (HELP) model.
It is recognized that leachate generation rates during the operating period will vary and will be
higher than in the closed state. This generation rate is influenced by the phasing of landfill
development and timing of final cover construction. This is consistent with approaches used in
other landfill EAs.
Leachate generation rates for each option in the post closure period are presented in Section
3.2.2 and are supported by calculations summarized in Attachment A.
3.2.1.5 Other Assumptions
There are characteristics of a landfill operation that would be common to all footprints. While
these would not significantly influence the comparative analysis they should nevertheless be
considered in reviewing the footprint alternatives. These facility characteristics are summarized
as follows.
Leachate Management
The landfill leachate control system will be designed in compliance with the requirements of O.
Reg. 232/98 such that the Ontario Ministry of the Environment’s Reasonable Use Policy is met.
The regulations allow two approaches for designing a landfill to protect groundwater quality – a
site specific design, or a generic design. The site specific approach allows a proponent to
design the leachate controls to suit the site setting provided that the Reasonable Use limits are
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
21
met. The generic approach allows the proponent to select one of two generic designs which
have been developed such that the Reasonable Use limits are met within a broad range of
hydrogeologic settings.
At this time WM is planning to design the site with the Generic II – Double Liner system as
specified in the regulations. This consists of (from top down):
0.3 m thick granular/perforated pipe primary leachate collection system;
0.75 m thick geomembrane/engineered clay primary liner;
0.3 m thick granular/perforated pipe secondary leachate collection system;
0.75 m thick geomembrane/engineered clay secondary liner;
1 m thick natural or constructed soil attenuation layer.
Collected leachate will be removed from the site for treatment and/or disposal in accordance
with applicable regulations (method to be determined). Consideration of leachate treatment
alternatives and the identification of a preferred approach will be the subject of a separate
evaluation process as part of the EA. The preferred leachate treatment alternative will be
considered in conjunction with the preferred landfill footprint during the detailed impact
assessment.
Gas Controls
O. Reg. 232/98 requires the mandatory collection of landfill gas for sites with a waste capacity
greater than 1.5 million m3, and as such a gas collection system will be required for the
proposed landfill footprint. This is expected to include both horizontal and vertical collection
piping that will be developed progressively through the operating period. WM currently operates
a landfill gas recovery system at the existing Ottawa WMF landfill which supplies gas to an on-
site electricity generation and gas flaring facility.
Surface Water Management
O. Reg. 232/98 requires that landfill sites be designed to protect surface water to specified
performance standards. Design practices that will be followed in developing the surface water
management system include:
divert or control clean surface water flowing onto the site; and
control quality and quantity of runoff discharging from the site to control
erosion, sediment transport, and flooding.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
22
Landfill Operations
O. Reg. 232/98 requires the landfill be designed and operated to ensure that nuisance impacts
are minimized, and the regulation requires that the proponent prepare a report describing all
aspects of the operation as well as maintenance procedures that will be followed.
A key objective in planning landfill operations is to minimize nuisance impacts including noise,
litter, vectors, dust, and odour. Typical operating practices relating to these issues include:
Landfill development sequence is planned to allow the progressive closure of
the landfill, including commencing construction of the final cover as early as
possible.
Site design includes screening features such as berms and tree plantings
which can attenuate visual impact and noise, and permanent litter fences to
reduce blowing litter.
Site haul roads are paved, are of sufficient length to minimize mud trackout,
and are routinely cleaned to minimize dust generation.
Daily operations are planned such that:
the size of the working face is kept to a minimum in order to minimize
the area of exposed waste;
working face location is adjusted as required and seasonally to provide
shelter from prevailing winds;
portable litter fences are routinely used around the working face to
capture blowing litter;
waste compaction commences immediately after placement and
spreading; and
cover material is readily available and the working face is fully covered
at the end of each operating day.
A comprehensive monitoring and maintenance program is implemented
which addresses all aspects of the landfill operation. This includes a routine
waste inspection program and monitoring for landfill odour.
3.2.2 Description of the Landfill Footprint Options
Four landfill footprints have been developed for comparative analysis, consisting of two in the
West development envelope and two in the North development envelope. The footprints were
identified respecting the criteria and assumptions described in Section 3.2.1 and based on
public input. These options are illustrated in Figures 3.1 to 3.4.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
23
3.2.3 Landfill Footprint Option 1
Landfill Footprint Option 1 is shown in Figure 3.1, and is located within the West Envelope.
This footprint was identified by the project team and reflects the following:
The footprint is on lands that WM does not currently own but has options to
purchase.
A 100 m buffer is maintained between the north limit of the footprint and the
private lands to the north (e.g., which front onto Richardson Side Road), and
between the east limit (in northeast corner of the footprint) and the private
lands to the east of William Mooney Road.
For the remainder of the east limit a 30 m buffer is maintained between the
footprint and William Mooney Road. This buffer distance is considered
reasonable since it supports a lower landfill height which is an important
consideration received from the community, there are no identifiable
receptors of concern on the opposite side of William Mooney Road, allows
sufficient area to monitor the operation and performance of the landfill, and
there is no requirement for ancillary facilities within this buffer area. In
addition, WM expects to acquire the lands on the east side of William Mooney
Road.
A minimum 150 m distance is maintained between the western limit of the
footprint and the Goulbourn Wetland Complex. This respects the minimum
120 m buffer distance required around the wetland and provides a minimum
30 m wide access/maintenance corridor.
The south limit of the footprint is determined by maintaining the noted buffers
and providing the required 6,500,000 m3 capacity while observing a
maximum waste elevation of approximately 156 mASL (or 157 mASL
allowing for the final cover) and side slopes varying from 4H to 1V to 5%.
The maximum height of the landfill is approximately 31 m above the existing
ground surface, as shown in Section A-A’’ on Figure 3.5. The south limit of
the footprint is over 500 m from the south property boundary.
The south portion of the envelope provides limited area for disposal capacity
due to the relatively narrow area between the Goulbourn PSW and William
Mooney Road.
This option requires truck traffic to travel west from Carp Road across the
northern limit of the existing Ottawa WMF landfill to access the footprint. For
safety and access control WM would seek to purchase and close William
Mooney Road.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
24
Figure 3.5 Cross Sections A-A’ (for Option #1) and B-B’ (for Option #2)
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
25
3.2.4 Landfill Footprint Option 2
Landfill Footprint Option 2 is shown in Figure 3.2, and is generally centred within the North
Envelope. This footprint was identified by the project team and reflects the following:
The southern half of the footprint is on WM-owned lands and the northern half
is on lands that WM has options to purchase. A light industrial building (e.g.,
the Laurysen building) is situated in the eastern portion of WM optioned
lands.
A 100 m buffer is maintained between the north limit of the footprint and the
private lands to the north (e.g., which front onto Richardson Side Road). An
unevaluated Wetland with a 10 m buffer exists within this north buffer zone.
A 328 m buffer is maintained between the east limit of the footprint and Carp
Road. This reflects avoiding an existing topographic low area (former gravel
pit) in this part of the site which could complicate landfill development in this
area.
A 30 m buffer is maintained between the east limit of the footprint and the
Laurysen building. WM considers that the existing Laurysen building may
have several beneficial uses including equipment storage/maintenance or
waste diversion activities in the future.
A 30 m buffer is maintained between the south limit of the footprint and the
perimeter roadway of the existing landfill at the WMF. This allows sufficient
area for site access, maintenance and monitoring activities.
The location of the west limit of the footprint was determined by maintaining
the noted buffers and providing the required 6,500,000 m3 capacity while
observing a maximum waste elevation of approximately 157 mASL (or 158
mASL allowing for the final cover) and side slopes varying from 4H to 1V to
5%. The maximum height of the landfill is approximately 33 m above the
existing ground surface as shown in Section B-B’’ on Figure 3.5.
A 216 m buffer is maintained between the west limit of the footprint and
William Mooney Road.
The west limit of the footprint allows preservation of the majority of the
existing woodlot within the west part of the WM-owned lands.
This option confines truck traffic to the North envelope and does not impact
William Mooney Road. Trucks will enter the footprint area from the on-site
road between the existing landfill and the proposed footprint.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
26
3.2.5 Landfill Footprint Option 3
Landfill Footprint Option 3 is shown in Figure 3.3. This option was developed at the request of
public stakeholders through the EA consultation process for a footprint that minimizes the visual
impact of a landfill in the North Envelope by reducing its height. Option 3 is summarized as
follows:
The southern half of the footprint is on WM-owned lands and the northern half
is on lands that WM has options to purchase.
A 100 m buffer is maintained between the north limit of the footprint and the
private lands to the north. An unevaluated Wetland with a 10 m buffer exists
within this north buffer zone.
A 328 m buffer is maintained between the east limit of the footprint and Carp
Road. This reflects avoiding an existing topographic low area (former gravel
pit) in this part of the site which could complicate landfill development in this
area.
A 30 m buffer is maintained between the east limit of the footprint and the
Laurysen building. WM considers that the existing Laurysen building may
have several beneficial uses including equipment storage/maintenance or
waste diversion activities in the future.
A 30 m buffer is maintained between the south limit of the footprint and the
perimeter roadway of the existing landfill at the WMF. This allows sufficient
area for site access, maintenance and monitoring activities.
The west limit of the footprint is extended to the maximum possible within the
North Envelope with a 30 m buffer maintained between the west limit and
William Mooney Road. In addition, WM expects to acquire the lands on the
west side of William Mooney Road.
Providing a landfill capacity of 6,500,000 m3 and maintaining side slopes
between 4H to 1V and 5% results in a maximum waste height of
approximately 151 mASL (or 152 mASL allowing for the final cover). The
maximum height of the landfill is approximately 27 m above the existing
ground surface as shown in Section C-C’’ on Figure 3.6.
This option confines truck traffic to the North envelope and does not impact
William Mooney Road. Trucks will enter the footprint area from the on-site
road between the existing landfill and the proposed footprint.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
27
Figure 3.6 Cross Sections C-C’ (for Option #3) and D-D’ (for Option #4)
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
28
3.2.6 Landfill Footprint Option 4
Landfill Footprint Option 4 is shown in Figure 3.4. This option was developed at the request of
public stakeholders through the EA consultation process for a footprint that maximizes distance
to residences located northwest of the West Envelope, and minimizes the visual impact of the
landfill by minimizing its height and locating it as close to the existing WMF landfill as possible.
Option 4 is summarized as follows:
The ‘‘L-shaped’’ footprint straddles the West and North envelopes, and is
situated on WM-owned lands and on lands that WM has options to purchase.
This option requires the closure and purchase of William Mooney Road as
the footprint is built over a section of William Mooney Road.
For the portion within the North envelope:
A 30 m buffer is maintained between the north limit of the footprint and
the existing limit of WM–owned lands. This buffer distance is
considered reasonable since it supports a lower landfill height overall
(otherwise the western portion would be higher to provide the required
capacity) which is an important consideration received from the
community, there are no identifiable receptors of concern to the
immediate north, allows sufficient area to monitor the operation and
performance of the landfill, and there is no requirement for ancillary
facilities within this buffer area. In addition, WM expects to acquire the
lands to the immediate north of the existing limit of WM – owned lands.
A 30 m buffer is maintained between the south and east limits of the
footprint and the perimeter roadway of the existing landfill at the WMF.
This allows sufficient area for site access, maintenance and monitoring
activities.
A 260 m buffer (approximate) is maintained between the east limit of
the footprint and Carp Road. This buffer width reflects avoiding an
existing topographic low area (former gravel pit) in this part of the site
which could complicate landfill development in this area.
The maximum height of the waste for the portion within this area is
approximately 149 mASL (or 150 mASL allowing for the final cover)
and is approximately 25 m above the existing ground surface.
For the portion within the West envelope:
A minimum 150 m distance is maintained between the west limit of
the footprint and the Goulbourn PSW Complex. This respects the
minimum 120 m buffer distance required around the wetland and
provides a minimum 30 m wide access/maintenance corridor.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
29
The south limit shown results from provision of 6,500,000 m3 capacity
and side slopes between 4H to 1V and 5%. The maximum height of
the waste within this area is approximately 154 mASL (or 155 mASL
allowing for the final cover) and is approximately 30 m above the
existing ground surface as shown in Section D-D’’ on Figure 3.6.
Trucks will enter the footprint area from the on-site road between the
existing landfill and the proposed footprint.
3.3 Summary of Landfill Footprint Options
The key attributes of the four landfill footprint alternatives are summarized in Table 3.1. These
attributes are provided at a conceptual level of detail/design, which is appropriate for completing
a comparative evaluation of the landfill footprint alternatives.
Table 3.1 Comparison of Footprint Options
Attribute Option 1 Option 2 Option 3 Option 4
General Description and Location
Irregular shaped footprint in northern
portion of West Envelope. Provides
required volume capacity of
6,500,000 m3.
Rectangular footprint in ‘‘centre’’ of North Envelope. Provides
required volume capacity of
6,500,000 m3.
Rectangular footprint in ‘‘west-central’’ part of North Envelope. Provides required volume capacity of
6,500,000 m3.
Irregular footprint straddling West and
North Envelope. Provides required volume capacity of
6,500,000 m3.
Land Ownership On WM-Optioned Lands (with exception
of William Mooney Road)
On WM-Owned and Optioned Lands
On WM-Owned and Optioned Lands
On WM- Owned and Optioned Lands (with exception of William
Mooney Road)
Footprint Size 384,800 m2 357,400 m2 442,400 m2 476,800 m2
Approximate Elevation of Top of Landfill
(including final cover)
157 mASL
158 mASL 152 mASL 155 mASL (in West Envelope); 150 mASL
(in North Envelope)
Approximate Height of Landfill Above Existing
Grade
31 m 33 m 27 m 30 m (in West Envelope); 25 m (in
North Envelope)
Operational Impact to William Mooney Road
Yes, necessitates closure and WM
acquisition of William Mooney Road
No, operation confined to North Envelope
No, operation confined to North Envelope
Yes, necessitates closure and WM
acquisition of William Mooney Road
Minimum Distance to Privately –Owned
Lands (reflecting WM acquisition of all optioned lands)
Approx. 100 m Approx. 100 m Approx. 100 m Approx. 320 m
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
30
Table 3.1 Comparison of Footprint Options
Attribute Option 1 Option 2 Option 3 Option 4
Minimum Distance to Carp Road
Approx. 1,375 m Approx. 330 m Approx. 330 m Approx. 280 m
Minimum Distance to Richardson Side Road
Approx. 160 m Approx. 400 m Approx. 400 m Approx. 650 m
Minimum Distance to Hwy 417
Approx. 350 m Approx. 700 m Approx. 700 m Approx. 300 m
Longest Internal Haul Distance Internal to
Site(1)
2,700 m 1,900 m 2,100 m 2,100 m
Waste Haulage Traffic – Loads per Day(2)
180 – 230 180 – 230 180 – 230 180 – 230
Waste Haulage Traffic – Trips per AM peak
hour(2)
25 – 35 25 – 35 25 – 35 25 – 35
Waste Haulage Traffic – Trips per PM peak
hour(2)
25 – 50 25 – 50 25 – 50 25 – 50
Construction Traffic (Scenario 1)
– Loads per Day(3)
Up to 123 Up to 115 Up to 142 Up to 153
Construction Traffic (Scenario 1)
– Trips per Hour(3)
Up to 25 Up to 23 Up to 28 Up to 31
Construction Traffic (Scenario 2)
– Loads per Day(3)
Up to 199 Up to 185 Up to 229 Up to 246
Construction Traffic (Scenario 2)
– Trips per Hour(3)
40 37 46 49
Leachate Generation Rate(4)
1.8 to 2.9 L/s 1.7 to 2.7 L/s 2.1 to 3.3 L/s 2.3 to 3.6 L/s
Notes: 1. Measured as maximum distance from site entrance to furthest point of landfill footprint, reflecting: a. Access to site remains through existing site entrance; b. Truck traffic utilizes existing internal road along north perimeter of existing landfill mound for greatest distance possible, then
crosses into footprint area.
2. Data taken from, 2006 study undertaken by WM and considered to reflect waste and daily cover haulage for future 10 year operating period.
3. Construction traffic estimated as per Appendix A, reflecting: a. Includes importation of soil and granular materials for Ont. Reg. 232/98 Double Generic Liner System; b. Scenario 1 reflects construction of one base liner and leachate collection system cell, and one phase of final cover (each
totalling approximately one eighth of landfill area) over a 6 month period. This scenario is intended to represent a ‘‘typical’’ construction season;
c. Scenario 2 reflects construction of two base liner and leachate collection system cells but no final cover over a 6 month period. This scenario is intended to represent the construction required to prepare the site to accept waste at the start of the operation period.
4. Leachate generation rate estimated as per Appendix B, reflecting: a. Estimated using HELP model reflecting landfill footprint fully closed; b. Landfill final cover consisting per Ont. Reg. 232/98 minimum design of 0.6 m soil overlain by 0.15 m vegetated topsoil.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
31
3.4 Assessment of the Alternative Methods
Following the identification of the alternative landfill footprints, a detailed assessment and
evaluation of the four footprints was undertaken. As identified in Figure 3.7, the multi-step
process began with confirming the evaluation criteria and indicators proposed in the approved
ToR and confirmed at public meetings, including Open House #1 and #2 and Workshop #1 and
#2. With a final list of evaluation criteria and indicators established, they were applied to each of
the four footprint options through a “net effects analysis” to determine the net positive or
negative environmental effects. Next, a Reasoned Argument or Trade-off method was carried
out using this information to determine a preferred landfill footprint.
Figure 3.7 Alternative Methods Process
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
32
The assessment and evaluation of the alternative landfill footprints was conducted in three steps:
Step 1 – Confirm Evaluation Criteria and Indicators/Measures
Step 2 – Undertake the Net Effects Analysis
Step 3 – Carry out the Comparative Evaluation
Step 1: Confirm Evaluation Criteria and Indicators/Measures
Prior to undertaking the net effects analysis, the evaluation criteria, indicators, and measures
previously developed in the ToR were reviewed with the public during Open House events and
confirmed for application to each of the landfill footprint alternatives. With regard to the
evaluation criteria, the following Environmental Components were utilized:
Atmospheric Environment
Geology and Hydrogeology
Surface Water
Biology – Terrestrial and Aquatic
Cultural Heritage Resources
Transportation
Land Use
Agriculture
Socio-economic
Aboriginal
Site Design and Operations
By establishing evaluation criteria in relation to these Environmental Components, the WCEC
EA addresses each aspect of the “environment” as defined in the Ontario EA Act.
The approved WCEC ToR set out the draft criteria and indicators for evaluating the ‘‘alternative
methods’’ (i.e., alternative landfill footprint options) in the EA. As a result, the draft criteria,
indicators, and measures provided for in the ToR were reviewed and modified appropriately to
suit the evaluation of the landfill footprint alternatives.
Specifically, the criteria, indicators and measures were modified in consultation with review
agencies and the public to ensure that an appropriate level of scrutiny and rigour was applied in
evaluating the landfill footprint alternatives. In doing so, the results of the evaluation phase will
consist of clearly defined net effects for each landfill footprint alternative.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
33
Step 2: Undertake the Net Effects Analysis
With the evaluation criteria, indicators and measures confirmed through the preceding step, a
net effects analysis of the alternative landfill footprint options was carried out consisting of the
following activities:
Identify potential effects (based on measures) on the environment;
Develop and apply avoidance/mitigation/compensation/enhancement measures;
and
Determine net effects on the environment.
Each of these activities will be documented in a separate table for each alternative landfill
footprint options.
Identify the Potential Effects
Potential effects on the environment will be based on the information contained in the Existing
Conditions reports. After determining the alternatives, the evaluation criteria will be applied to
each alternative landfill footprint option to determine the potential environmental effects.
Specifically, this will be accomplished by applying the indicators to each alternative landfill
footprint option. The results of applying these indicators will be expressed in the context of their
corresponding measures, either quantitatively or qualitatively, as appropriate, in the potential
effects column of the net effects table.
Develop and Apply the Avoidance / Mitigation / Compensation / Enhancement Measures
Once the potential effects on the environment have been identified for each alternative landfill
footprint options, the appropriate avoidance/ mitigation/ compensation/ enhancement measures
will be developed and documented in the net effects table for each indicator. The intent of these
measures is as follows:
Avoidance: .......... The first priority is to prevent the occurrence of negative
effects (adverse environmental effects) associated with
implementing an alternative.
Mitigation: ........... Where adverse environmental effects cannot be avoided, it
will be necessary to develop the appropriate measures to
remove or alleviate to some degree the negative effects
associated with implementing the alternative.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
34
Compensation: ... In situations where appropriate mitigation measures are not
available, or significant net adverse effects will remain
following the application of mitigation, compensation
measures may be required to counterbalance the negative
effect through replacement in kind, or provision of a
substitute or reimbursement.
Enhancement: ..... Wherever possible, the opportunity should be taken to
enhance the positive environmental effects associated with
implementing an alternative rather than simply mitigate and/or
compensate.
With these intentions in mind, the avoidance/ mitigation/ compensation/ enhancement measures
will be developed based on the professional expertise of the Project Team reflecting current
procedures, historical performance, and existing environmental conditions. These developed
measures will be documented in the avoidance/ mitigation/ compensation/ enhancement
measures column of the net effects table.
Determine the Net Effects
Once the appropriate avoidance/ mitigation/ compensation/ enhancement measures have been
developed and applied to the potential environmental effects of each alternative landfill footprint
option, the remaining net negative or net positive effect will be determined and documented by
the Project Team members in the “net effects” column of the net effects table. In cases where
the net negative or net positive effect cannot be addressed through the application of
avoidance/ mitigation/ compensation/ enhancement measure(s), the potential net effect will
remain unchanged and therefore, will still be identified as the “net effect”.
The net effects associated with each alternative landfill footprint option will be identified and
carried forward to Step 3.
Step 3: Carry Out the Comparative Evaluation
In Step 3, the net effects identified for each alternative landfill footprint option in Step 2 will be
compared to one another in order to identify a “recommended landfill footprint. The comparison
of net effects will be completed using a “Reasoned Argument” or “Trade-off” method, as
provided for in the approved WCEC EA ToR.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
35
This method is based on the following two activities:
1st Activity .... Identify the level of effect (‘‘No’’, ‘‘Low’’, ‘‘Moderate’’ or ‘‘High’’)
associated with each alternative landfill footprint option for each
indicator
2nd Activity ... Rank each alternative landfill footprint option from most preferred
to least preferred (in this example case, since four are being
compared, either first, second, third, fourth or tied for first, etc.)
based on the identified level of effect from each indicator:
Criteria rankings for each landfill footprint option;
Factor specific rankings for each landfill footprint option; and,
Overall landfill footprint rankings.
The process followed in Step 3 and the results of these two activities are described in further
detail in the following sections.
Level of Effect Determination of the Alternative Landfill Footprint Options
As mentioned, the “Reasoned Argument” or “Trade-off” method will be used to highlight the
relative level of effect of each landfill footprint option based on the net effects determined in
Step 2. More specifically, a level of effect ranging from ‘‘No effect’’, ‘‘Low effect’’, ‘‘Moderate
effect’’ or ‘‘High effect’’ will be determined for each landfill footprint option by each indicator.
Ranking of the Alternative Landfill Footprint Options
The net effects identified for each alternative in the previous step will then be compared to one
another in order to identify a “recommended” footprint location. The comparison of net effects
will be completed using a “Reasoned Argument” or “Trade-off” method, as provided for in the
approved ToR.
Under the Reasoned Argument approach, the difference in net effects associated with the
various alternatives is highlighted. Based on these differences, the advantages and
disadvantages of each alternative are identified according to the evaluation of trade-offs
between the various evaluation criteria and indicators. The relative significance of potential
impacts is examined to provide a clear rationale for the selection of a preferred alternative.
The term Trade-offs is defined as “things of value given up in order to gain different things of
value”. Each alternative will be compared against the others to distinguish relative differences
in impacts to the environment, taking into account possible mitigation measures.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
36
For example, during the detailed Comparative Evaluation of the alternative landfill footprints, the
rankings will be combined (aggregated) for each Environmental Indicator and Criteria into a
single preference rating (‘‘No’’, ‘‘Low’’, ‘‘Medium’’, or ‘‘High’’) for each environmental component.
These results will be aggregated further into a single preference rating for each alternative
landfill footprint in order to rank the alternatives (incorporating trade-offs and professional
judgement) and identify a preferred alternative landfill footprint.
This method is based on the following two activities (example provided below):
1st Activity .... Identify the level of effect (‘‘No Effect’’, ‘‘Low’’, ‘‘Medium’’ or
‘‘High’’) associated with each alternative for each indicator
2nd Activity ... Rank each alternative from most preferred to least preferred
based on the identified level of effect from each indicator; Criteria
rankings for each alternative landfill footprint option; component
specific rankings for each alternative landfill footprint option; and,
overall alternative landfill footprint option rankings.
Each team member first assigned rankings for each individual Criteria based on the level of
effect determined for each Indicator under that Criteria. For example, the “Atmospheric
Environment” Environmental Component has three Criteria, each of which have two Indicators
that will be given a level of effect (‘‘No’’, ‘‘Low’’, ‘‘Medium’’ or ‘‘High’’) and then consolidated to
determine an overall Criteria ranking. After each Criteria are ranked, ranking will then occur for
each Environmental Component (i.e., Atmospheric Environment, Land Use, Geology and
Hydrogeology, etc.) based on the rankings from each evaluation criteria. For example, in the
case of the Atmospheric Environment component, the Technical Consultant will consider the
identified rankings for an alternative corresponding to their evaluation criteria (incorporating
trade-offs and their professional judgment) in determining the Atmospheric Environment
component ranking.
Following this, the Project Team determined an overall ranking of each alternative based on the
individual Environmental Component rankings. With this in mind, the Team will then assign an
overall ranking of ‘‘First’’ for an alternative having a greater number of higher placed individual
Component rankings (e.g., more ‘‘First’’ and ‘‘Second’’ place rankings).
The Comparative Evaluation in the following sections has been prepared as per the steps
outlined above so that a clear, traceable, and replicable process is provided.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
37
4. Net Effects Analysis
Now that the methodology of the Assessment of Alternative Methods has been presented, the
following sections will review the net effects analysis for each of the Landfill footprint options.
4.1 Landfill Footprint Option #1
4.1.1 Net Effects Analysis
The following provides the key net effects for landfill footprint option #1 as illustrated in
Figure 3.1. Please refer to Attachment B for the overall net effects tables and Attachment C
for the discipline specific memos.
Atmospheric
With respect to the Odour criteria, the assessment of Option #1 resulted in predicted
concentrations less than 1 Odour Unit (OU) over a 10-minute averaging period, at 99.5% of the
time (provided the assumptions detailed in Appendix C). The net effects are based on
implementing the following key mitigation measures:
the landfill gas collection and utilization system is incorporated and
implemented progressively over the lifespan of Option #1; and,
Best Management Practices (BMPs) are incorporated to reduce the potential
for odour to occur during the normal operation of the landfill.
The net effects determination considered all 24 receptors identified in the Odour existing
conditions report. Based on the modelling completed, no off-site receptors are affected. Odours
are more likely to impact receptor areas closer to the landfill based on the nature of the sources.
With respect to Air Quality, landfill gas emissions were modelled for vinyl chloride, benzene and
hydrogen sulphide. These compounds were evaluated to determine the potential to exceed any
air quality standards or guidelines at the property line and at all sensitive receptors (24)
identified in the Odour existing conditions report. All receptors are expected to be within
compliance (provided the assumptions detailed in Appendix C). The net effects are based on
implementing the following key mitigation measures:
the landfill gas collection and utilization system is incorporated and
implemented progressively over the lifespan of Option #1; and,
Best Management Practices (BMPs) are incorporated to reduce the potential
for landfill gas releases to occur during the normal operation of the landfill.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
38
Also reviewed as part of the Air Quality criteria were combustion emissions, including oxides of
nitrogen and carbon monoxide and particulate emissions. For Option #1, the predicted
concentrations for combustion emissions were predicted to be within compliance at all 24
receptors identified in the Air Quality existing conditions report for both nitrogen and oxides and
carbon monoxide. This estimate is based on all assumptions provided in Appendix C above
and that mitigation measures allowing for the efficient traffic flow on-site (no holder periods or
prolonged idling) and BMPs are put in place to control emissions for the vehicles allowed to
entire the site.
For dust emissions, TSP, PM10 and PM2.5 were considered. Predicted concentrations for 24-
hour periods for each type of particulate were assessed at all 24 receptors. For Option #1, the
results assumed all of the assumptions provided in Appendix C and that each alternative would
incorporate efficient traffic flow movements on-site (no holding periods or prolonged idling
periods) and that BMPs for dust would be incorporated. The maximum concentrations were
predicted to exceed at two off-site receptors for Option 1. Additional mitigation measures/
strategies focused on dust reduction will be outlined to minimize dust to all receptors, should
Option #1 be identified as the preferred alternative.
With respect to the Noise criteria, the predicted sound levels for Option #1 at each of the 24
receptors were assessed to determine if the predicted noise levels would be less than 55 dBA
(MOE Noise Guideline for Landfills) or within 3 dB of the background noise levels. As an
example, a 3 dB change in noise levels is the level where the human ear can detect a change in
the sound levels. Option 1 has a total of five receptors that were either greater than 55 dBA or
greater than 3 dB above background levels. Results are provided in Appendix C.
All results were based on the assumptions provided in Appendix C and the proposed mitigation
measures that each alternative would include the following:
maintenance to keep haul trucks and construction trucks in good working
conditions;
screening berms to provide noise reduction for specific operations;
noise BMPs to minimize the potential for noise levels in excess during normal
operations; and
efficient traffic flow of on-site vehicles to ensure that vehicles are moving and
are not sitting idle for prolonged periods of time.
Once a preferred option is selected, specific details regarding berming and noise reduction
strategies will be outlined to minimize noise to all receptors.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
39
Geology & Hydrogeology
The net effects relating to the Geology and Hydrogeology for all Options considered the
following criteria and indicators:
Groundwater Quality ...... predicted effects to groundwater quality at property
boundaries and off-site;
Groundwater Flow .......... predicted groundwater flow characteristics.
With respect to Groundwater Quality, various considerations were reviewed when considering
the net effects, including leachate generation rates at closure, existing groundwater quality,
monitorability of the site, and number and type of downgradient receptors. In regard to
Groundwater Flow, considerations included overburden type, depth to groundwater table,
hydraulic characteristics and modelled results of groundwater flow change. These
considerations assisted in framing what mitigation measures would be required and the
resultant net effects.
At closure, leachate generated from Option #1 is expected to be 1.8 to 2.9 L/s, which is the
second lowest of all alternatives. The existing groundwater quality is generally within the range
of background concentrations. The existing groundwater flow regime is well understood and
monitorable, which is a key component of ensuring that the mitigation measures related to the
design of the landfill and liner system are operating as intended. In terms of receptors, there
are 13 residential properties and 1 institutional property within 500 m downgradient of Option
#1. These properties utilize private wells for their water supplies.
This surface geology in the Option #1 area is largely fine sand to silty sand and sand-gravel,
with overburden thickness ranging from 2.6 to 9.2 m, with the thinnest area along the northern
side of the footprint area. The predominant underlying bedrock is the Bobcaygeon Formation,
with Gull River Formation underlying the overburden to the extreme west side of the footprint
area. The bedrock slopes gradually to the north-northeast.
The water table is relatively shallow and is generally found between <1 m to 2.5 m below
ground surface. The overburden-shallow bedrock is the primary groundwater flow zone, with
good connection to the deeper bedrock. The flow is northward on the south side of the footprint,
becoming northeastward along the north side of the footprint.
The results of the numerical flow modelling revealed that the simulated drawdown is predicted
to be ≤0.11 m at downgradient property boundaries, with no effects to off-site groundwater flow
directions.
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
40
For the purpose of the Net Effects Analysis, it is important to recognize that the generic design
options for groundwater protection as developed by the Ontario Ministry of Environment and
specified in O. Reg. 232/98 are considered to be protective of the groundwater environment.
That is, the generic design options have been developed to ensure that the Groundwater
Protection Standards (Reasonable Use Limits) are met at the base of the leachate containment
system. Further contaminant attenuation in the buffer area is not required (MOE Landfill
Standards Guideline, May 1998; revised June 2010). A Generic Design Option II – Double
Composite Liner System will be used for the West Carleton Environmental Centre regardless of
the landfill footprint alternative selected.
The existing conditions for groundwater flow and groundwater quality have been determined
and are predictable. The existing hydrogeologic conditions are suitable for effectively
monitoring groundwater flow and quality around landfill footprint Option #1.
It is noted that development of a landfill with a Generic Design Option II leachate containment
and collection system will eliminate recharge to the aquifer from any precipitation within the area
of the footprint. This will result in a minor amount of localized drawdown of the water table in
the area. Numerical modelling of groundwater flow indicates that the predicted drawdowns at
the property boundaries are on the order of 0.1 to 0.2 m (at full landfill development). This
amount is an order of magnitude less than the natural seasonal variations in the water table,
and is not expected to affect off-site groundwater supplies.
With the use of a Generic Design Option II leachate containment and collection system, no
mitigation measures are required beyond the implementation of an Environmental Monitoring
Plan (EMP) that is appropriate to the landfill footprint option.
The result of the Net Effects Analysis is that no off-site groundwater receptors are anticipated to
be affected by landfill footprint Option #1. The key factors leading to this result are:
the use of the Generic Design Option II leachate containment and collection
system, which is protective of the groundwater environment, and
the hydrogeologic conditions are suitable for effectively monitoring
groundwater flow and quality around the landfill footprint.
Surface Water Resources
With respect to surface water quality, Option #1 has the potential for water quality impacts due
to accidental leachate seeps to the surface and/or increases in Total Suspended Solids (TSS)
concentration due to runoff from the internal gravelled access roadways. These water quality
impacts can be mitigated by a two staged Stormwater Management Facility (SWMF) to remove
Draft Assessment of Landfill Footprint Alternatives
West Carleton Environmental Centre
41
larger particle size TSS and provide for emergency leachate containment in a Stage 1 sediment
forebay, with a Stage 2 providing extended control for additional TSS removal. SWMF outflow
would then be to South Huntley Creek. The resultant net effect would be discharging to surface
water with no increase in TSS and related parameter concentrations in Huntley Creek (South
Branch) at William Mooney Road.
From a water quantity perspective, the upstream wetland drainage pattern would be blocked by
the proposed landfill with a potential impact on the existing wetland natural environment due to
increased water levels. This would be mitigated by diverting the wetland flow around the landfill
and back to South Huntley Creek using an open channel and culverts for roadway crossings.
Therefore, there would be no increase in wetland water levels.
Due to the change in local topography provided by the relatively steep-sloped (from a hydrologic
perspective) landfill configuration, a reduction in travel time (as a result of increased flow
velocities) would create an increase in peak flows with potential to increase downstream water
levels and flood damages. This impact could be mitigated by the recommended Stage 1 and
Stage 2 of the SWM facility providing attenuation of post-development flows to pre-development
levels with outflow to South Huntley Creek. Therefore, there would be no increase in peak flows
at William Mooney Road.
Terrestrial Environment
With respect to impacts on vegetation communities, Option #1 results in 16.7 ha of vegetation
being removed, including 8.2 ha of meadow communities, 2.2 ha of thicket communities, 3.0 ha
of forest communities and 3.3 ha of wetland communities which are associated with the
adjacent PSW (see Figure 4.1). Some of the vegetation being removed is early successional
that could be considered less significant because of its age and simpler structure. BMPs will be
implemented on-site during construction (i.e., installation of protective fencing, access
restrictions, use of dust suppressants, etc.) to reduce the overall net effect. Further,
compensation for the loss of vegetation communities will occur elsewhere on-site where there
are areas that could be revegetated. A Compensation and Restoration Plan will be developed
during detailed design to address the exact location of these areas.
With respect to impacts on wildlife habitat, Option #1 has the greatest impact on area sensitive
species (5 bird territories) criteria because of the presence of four territories of Eastern
Meadowlark in the rather extensive meadow (see Figure 4.2). Further, because of the loss of
16.7 ha of vegetated habitat, there is an increased effect on observed area sensitive bird
species such as the black and white warbler.
Recommended