Energy management (building project)

There are 7 buildings that you should chose one of them as a project and also there are some photos which explain with regard to the project

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Original PUMA data

Year Month

Electrical Fuel Total Energy Total

Consumption Cost2 Consumption Cost2 Consumption Cost2

kWh $ GJ ekWh $ ekWh $

2016

July 15 4,123 4,123

August 59,509 5,316 47 12,991 72,500

September 67,360 6,054 75 20,949 88,309

October 77,559 7,241 98 27,294 104,854

November 90,296 8,388 106 29,559 119,855

December 122,072 10,987 51 14,111 136,183

Overall: 416,796 37,986 393 109,028 525,824

2017

January 137,423 12,328 68 18,978 156,401

February 122,902 11,108 67 18,684 141,586

March 124,803 11,257 143 39,751 164,554

April 106,188 9,982 178 49,443 155,631

May 95,057 9,618 60 16,791 111,848

June 76,134 7,696 125 34,739 110,873

July 70,166 7,171 160 44,477 114,642

August 68,950 7,197 100 27,720 96,670

September 70,734 7,237 100 27,749 98,484

October 87,136 8,982 109 30,391 117,526

November 106,430 11,064 136 37,761 144,191

December 130,477 12,864 148 41,110 171,588

Overall: 1,196,400 116,505 1,395 387,593 1,583,993

2018

January 137,423 13,377 146 40,499 177,921

February 122,902 12,310 139 38,578 161,479

March 111,755 12,056 142 39,567 151,321

April 85,418 10,039 135 37,547 122,965

May 85,314 9,866 139 38,504 123,817

June 73,153 8,152 123 34,082 107,235

July 72,285 7,893 119 32,955 105,240

August 75,064 8,281 115 31,927 106,991

September 78,660 8,559 115 31,990 110,650

October 92,865 10,125 136 37,702 130,567

November 107,985 11,863 154 42,669 150,654

Overall: 1,042,824 112,521 1,463 406,020 1,448,840

ECM 01: High-Efficiency Domestic Hot Water (DHW)

A high efficiency gas fired (“condensing”) domestic hot water (DHW) system should be
considered.

The existing tanks are typical glass-lined atmospheric hot water heaters which have
relatively short lives.

Total ECM cost: $55,154

ECM 02: Demand-Controlled Ventilation (DCV)

MUA systems deliver tempered outdoor air to the common areas of the building to
make-up for local exhaust in the suites.

The existing makeup air (MUA) units blow heated air into the hallways and run
continuously regardless of actual airflow demand.

Total ECM cost: $80,960

ENERGYAND WATER AUDIT

ROSEWOOD VILLAGE, RICHMOND, BC

JANUARY 2019

3 EXISTING ENERGY AND

WATER

PERFORMANCE

3.1 ANNUAL ENERGY AND WATER COSTS

Rosewood Village is supplied with energy and water from the following sources:

— Electricity from BC Hydro, the local electricity utility, and

— Natural Gas from Fortis BC, the local natural gas utility.

— Water from the City of Richmond, the local water provider.

.

The following table outlines the annual energy, electricity, gas, carbon and water usages for the different metered categories

at Rosewood Village for the most recent 12 months. Note that townhouse natural gas consumption and water bills could not

be made available due to privacy considerations; therefore, these usages are calculated based on energy modeling, equipment

capacities, and estimated usage patterns.

https://www.fortisbc.com/Rebates/RebatesOffers/SocialHousingRetrofitSupportProgram/Pages/default.aspx

https://efficiencybc.ca/incentives/provincial-retrofit-incentive-program/

https://efficiencybc.ca/incentives/natural-gas-water-heater-rebates-for-non-profit-housing/

https://efficiencybc.ca/incentives/energy-save-richmond-carbon-marketplace/

Table 1 – BASELINE DATA (OCTOBER 2017- SEPTEMBER 2018)

Utility Cost GHG (tons)

Electricity (Common) 69,559 kWh 69,559 kWh 0.11 $/kWh $7,864 0.8

Electricity (Tenant) 737,051 kWh 737,051 kWh 0.10 $/kWh $76,642 8.1

Natural Gas (Common) 3,761 GJ 1,044,731 ekWh 8.50 $/GJ $31,981 194.3

Natural Gas (Tenant) 3,222 GJ 895,007 ekWh 10.29 $/GJ $33,151 166.

5

Water 20,113 m3 1.18 $/m3 $23,648 –

2,850,845 ekWh $434,286 369.7Total CostTotal Equiv. Energy Consumption

Consumption
Equivalent

Consumption
Average Unit Cost

N/A

APPENDIX

B BUILDING
DESCRIPTION

APPENDIX B

BUILDING DESCRIPTION

The Rosewood Village comprises of three building types as summarized below:

BUILDING DETAILS

Name and Address Rosewood Village- 8220, 8240, 8260, and 8280 No.2 Road, Richmond

Year Constructed 1975

Envelope

Floor: Slab on grade with foam insulation

Walls: Wood frame with 2 x 4 framing and batt insulation, vapour barrier and gypsum board

Roofs: 2 x 6 rafters with blown insulation, vapour barrier and gypsum board

BUILDING FLOOR AREA AND UNITS SUMMARY

BUILDING

ADDRESS

BUILDING

TYPE

NUMBER OF

STOREY

NUMBER OF

UNITS
1-BR 2-BR 3-BR

NUMBER OF

OCCUPANTS

8220 Apartment 2 36 16 20 – 56

8240 Apartment 2 36 16 20 – 56

8260 Office 1 – – – – –

8280 Townhouse 2 66 – – 66 165

TOTAL – 138 32 40 66 310

SITE PLAN AND FLOOR AREAS
Numbers shown below are gross floor areas in m2.

716

477

477
477
477

7

2

2

7
2
2
7
2

2 597

5
7

3
579 955

3318

3318

APPENDIX B

SYSTEM DESCRIPTION
The following tables summarizes the building systems for apartments, townhouses, and office building:

SYSTEM APARTMENT

Controls — Each unit in the apartment has individual thermostat control.

Space Heating

— Space heating is provided by hydronic baseboard system served by central gas-fired
condensing boilers with modulating MatriX burner located in the mechanical room. The

boilers are new and replaced in 2014.

— Make: VITADENS 200-W
— Model: B2HA 80
— Quantity: 4 in each apartment building
— Capacity: 178,000 btu/hr (IBR)
— Efficiency: 92%
— Storage Tank – Rheem ST-120 (115 US gallons)- #2 in each apartment building.

— The hydronic hot water loop is a primary/secondary loop system. The primary loop is
circulated by dedicated 1/6HP constant speed pumps (P1 to P4) for each boiler. The

secondary loop is circulated by 1.25HP variable speed pumps (P5 and P6) which operate

lead/lag.

Space Cooling — No cooling

Ventilation

— No dedicated mechanical system is present for ventilation. The fresh outdoor air is

introduced manually through operable windows.

Domestic Hot Water — Domestic hot water is provided by the central boiler as used for the space heating.

Domestic Cold Water

— City fed, at city water pressure
— Water fixtures primarily consist of:

— Toilets: 1.6 GPF
— Lavatory faucets: 1.5 and 2.2 GPM
— Showers: 2.5 GPM
— Kitchen faucets: 2.2 GPM

— Washers are provided by the tenants and therefore excluded from our inventory

Interior and Exterior

Lighting

— Interior lighting
— 4ft T8 32W fluorescent luminaire in kitchen and bathrooms.
— 13W, 23W, and 26W CFL fixtures in entrance, hallways, dinning, and stairs

— Exterior lighting
— 13W and 26W CFL in porch, patio and exterior wall.

— 10% of all the fixtures are replaced to LED’s

Receptacle Equipment’s

— Standard refrigerator is provided by BC housing
— Make: Danby, Frigidaire, GE and Westinghouse
— Year: Mostly between 2004 and 2018. Few of them were from 1994
— Capacity: Between 11 and 17 cubic feet

— Electric stove range
— Make: Danby, Frigidaire, Kelvinator and Westinghouse
— Year: Mostly between 2004 and 2018. Few of them were from 1993 and 1997

— Kitchen exhaust fan
— Make: BROAN BP-10
— Airflows: 180-210 cfm

— Washers and dryer are provided by the tenants and therefore excluded from our inventory.

APPENDIX B

SYSTEM TOWNHOUSES

Controls — Each townhouse has thermostat control for the furnace

Space Heating

— Space heating is provided by the gas furnace ducted to the room and the air supplied by
discharge grille.

— Make: KEEPRITE (some townhomes have LENNOX G8 furnace)
— Model: GDE0775B12A1
— Quantity:1 in each townhouse

Space Cooling — No cooling
Ventilation

— No dedicated mechanical system is present for ventilation. The fresh outdoor air is
introduced manually through operable windows and through the bathroom operation of

exhaust fan.

Domestic Hot Water

— Each townhouse has an electric hot water which 98% efficient.
— Make: JJJ John Wood Pro Series
— Model: JW50SDE1
— Quantity: 1
— Power: 3000W

Domestic Cold Water
— City fed, at city water pressure
— Water fixtures primarily consist of:
— Toilets: 1.6 GPF
— Lavatory faucets: 1.5 and 2.2 GPM
— Showers: 2.5 GPM
— Kitchen faucets: 2.2 GPM
— Washers are provided by the tenants and therefore excluded from our inventory
Interior and Exterior
Lighting
— Interior lighting
— 4ft T8 32W fluorescent luminaire in kitchen and bathrooms.
— 13W, 23W, and 26W CFL fixtures in entrance, hallways, dinning, and stairs

— Exterior lighting
— Combination of 13W CFL and 60W incandescent bulbs in porch, patio and exterior wall
— 10% of all the fixtures are replaced to LED’s

Receptacle Equipment’s

— Standard refrigerator is provided by BC housing.
— Make: Danby, Frigidaire, GE and Westinghouse
— Year: Mostly between 2004 and 2018. Few of them were from 1994.
— Capacity: Between 11 and 17 cubic feet.

— Electric stove range is provided by BC housing.
— Make: Danby, Frigidaire, Kelvinator and Westinghouse
— Year: Mostly between 2004 and 2018. Few of them were from 1993 and 1997.

— Kitchen exhaust fan
— Make: BROAN BP-100
— Airflows: 180-210 cfm

— Washers and dryer are provided by the tenants and therefore excluded from our inventory.

APPENDIX B

SYSTEM OFFICE BUILDING

Controls — Office wall mounted thermostat control.

Space Heating

— Natural Gas Furnace
— Make: Rheem
— Model: R96TA1001621MSA
— Input rating: 199,000 btu/hr (max.)
— AFUE: 95%

Space Cooling
— Air source Heat pump, nameplate ratings couldn’t be read due to fencing for theft

prevention.

Ventilation
— No dedicated mechanical system is present for ventilation. The fresh outdoor air is

introduced manually through operable windows.

Domestic Hot Water

— Natural gas instantaneous water heater
— Make: Navien
— Capacity: 4.85 GPM
— Efficiency: 95%

Domestic Cold Water
— City fed, at city water pressure
— Water fixtures primarily consist of:
— Toilets: 1.6 GPF
— Lavatory faucets: 1.5 and 2.2 GPM
— Showers: 2.5 GPM
— Kitchen faucets: 2.2 GPM
Interior and Exterior
Lighting

— Interior Lighting
— Main office space is provided by 2 x 4ft T8 32W fluorescent lamps.
— Storage, bathrooms, and kitchen space are installed with a 9W and 13W LED lamps.

— Exterior Parking Lighting
— High Pressure Sodium (HPS) lamps of 150W and 250W
— Controlled by photocell

Receptacle Equipment’s
— Standard refrigerator, electric stove and washer and dryer is provided by BC housing.
— 5 x desktop computers

APPENDIX

C UTILITY DATA

APPENDIX C

UTILITY DATA

ELECTRICITY

BC Hydro supplies electricity to the site and invoices from January 2015 to October 2017 were analyzed for this assessment.

The following graph shows the electricity consumption of Rosewood Village common and tenant consumption during this

period. Common areas have shown a slight reduction in consumption over the years with higher usage during the winter

periods due to increased exterior lighting runtimes controlled via photocells. Tenant usage shows relatively consistent

consumption throughout the year with slightly higher consumption during the colder periods since domestic hot water is

heated electrically. Overall tenant consumption has remained relatively consistent over the years.

APPENDIX C

NATURAL

GAS

Fortis BC supplies natural gas to the site, and invoices from October 2016 to September 2018 were analyzed for this

assessment. Analysis is carried out individually for the two apartments and the office building. No natural gas invoices were

provided for townhouses due to privacy issues. All three buildings have shown consistent consumption, with variations

within typical annual tolerances.

APPENDIX C

APPENDIX

D END-USE
BREAKDOWN

APPENDIX D

END-USE

BREAKDOWN

The following graph shows the estimated energy end use breakdown for the Rosewood Village Site. This serves to illustrate

the magnitude of energy used by the different systems. Space heating constitutes a significant portion of the site’s energy

usage due to the construction of these 1975 buildings which have higher envelope thermal losses and infiltration. High usage

is also attributed to plug loads which include the electric stove and refrigerators. Domestic hot water also contributes

significantly to energy usage but it is inline with typical residential building usages.

ELECTRICTY

BREAKDOWN

CONSUMPTION

(EKWH)

EUI

(KWH/M2)

% OF

TOTAL

ENERGY

% OF TOTAL

ELECTRICAL

COST

($)

% OF TOTAL
COST

Fans 9,018 0.6 0% 1% $ 945 1%

Pumps 19,605 1.4 1% 2% $ 2,054 1%

Townhouse DHW 446,633 31.4 16% 55% $ 46,792 31%

Cooling 1,349 0.1 0% 0% $ 141 0%

Lighting 106,498 7.5 4% 13% $ 11,157 7%

Plug Loads 223,507 15.7 8% 28% $ 23,416 16%

Subtotal 806,610 56.7 29% 100% $ 84,506 56%

NATURAL GAS

BREAKDOWN CONSUMPTION (GJ)

EUI
(KWH/M2)
% OF TOTAL
ENERGY
% OF TOTAL
GAS
COST
($)

% OF

TOTAL
COST

Apartment Heating 2,319 45.3 23% 33% $ 19,722 13%

Apartment DHW 1,284 25.1 13% 18% $ 10,918 7%

Townhouse Heating 3,222 62.9 33% 46% $ 33,151 22%

Office Space Heating 146 2.8 1% 2% $ 1,239 1%

Office DHW 12 0.2 0% 0% $ 102 0%

Subtotal 6,983 136.4 71% 100% $ 65,132 44%

WATER

BREAKDOWN CONSUMPTION (M3)

WUI

(M3/M2)

% OF TOTAL
WATER
COST
($)

Toilets 3,085 0.2 15% $ 3,628

Showers 7,664 0.5 38% $ 9,012

Kitchen Faucets 3,379 0.2 17% $ 3,973

Washroom Faucets 3,553 0.2 18% $ 4,178

Washers 2,431 0.2 12% $ 2,858

Subtotal 20,113 1.4 100% $ 23,648

APPENDIX D

ENERGY END-USE BREAKDOWN
Space heating contributes to 58% of the overall site usage, while domestic hot water constitutes 29%. Neither of the buildings

onsite have a central ventilation system and therefore fan consumption is negligible. Circulation pumps are only utilized at

the apartment central boiler plants. Plug loads include cooking equipment, refrigerators, laundry machine and dryer, the

consumption of which are all paid for by the tenants.

ENERGY COST BREAKDOWN
An estimated energy cost breakdown follows. Comparison of this figure with the energy use breakdown figure above

illustrates the energy cost differences between electricity and natural gas. Electricity is approximately 3 times more expensive

than natural gas, per kWh.

Domestic hot water heating is the dominant cost category since townhouses have electric domestic hot water heating.

APPENDIX D

ELECTRICITY ENERGY BREAKDOWN
A consumption end use breakdown for electricity is shown below. Townhouse domestic hot water heating is the highest

category, followed by plug loads which include electric stoves, refrigerators, laundry machine, and dryers as the key

contributors.

NATURAL GAS ENERGY BREAKDOWN
A consumption end use breakdown for natural gas is shown below. Natural gas use is dominated by space heating due to old

envelope construction with high heat loss and infiltration. Apartment space heating usage is determined through analysis of

natural gas utility bills by extracting the weather dependant portion of gas consumption, the remaining weather independent

portion is attributed to domestic hot water heating.

Original PUMA data

Year Month

Electrical Fuel Total Energy Total

Consumption Cost2 Consumption Cost2 Consumption Cost2

kWh $ GJ ekWh $ ekWh $

2015

January 90,053 9,791 231 64,083 2,202 154,137 11,993

February 79,545 8,651 363 100,960 3,479 180,506 12,129

March 84,357 9,304 369 102,397 3,274 186,754 12,578

April 77,696 8,745 295 82,019 2,472 159,714 11,217

May 74,588 8,476 211 58,703 1,831 133,291 10,307

June 67,671 7,718 136 37,658 1,229 105,329 8,948

July 66,779 7,633 109 30,173 1,011 96,952 8,645

August 65,529 7,498 127 35,232 1,155 100,760 8,652

September 68,034 7,780 183 50,739 1,588 118,773 9,367

October 74,795 8,565 284 79,004 2,442 153,799 11,007

November 79,238 9,091 380 105,680 3,201 184,918 12,292

December 89,803 10,351 481 133,556 3,770 223,360 14,121

Overall: 918,089 103,603 3,169 880,203 27,654 1,798,292 131,256

2016

January 87,724 10,127 460 127,797 3,478 215,521 13,605

February 79,181 9,148 376 104,395 2,862 183,576 12,010

March 79,837 9,323 358 99,441 2,639 179,277 11,962

April 74,417 8,815 264 73,224 1,883 147,640 10,697

May 74,218 8,843 203 56,380 1,504 130,599 10,348

June 69,917 8,337 172 47,707 1,292 117,625 9,630

July 70,427 8,413 146 40,685 1,145 111,112 9,558

August 70,716 8,435 135 37,515 1,055 108,231 9,490

September 72,158 8,639 193 53,589 1,541 125,746 10,180

October 77,675 9,310 272 75,634 2,206 153,309 11,516

November 80,258 9,183 356 98,989 2,834 179,247 12,017

December 88,899 9,479 506 140,599 3,988 229,498 13,468

Overall: 925,428 108,053 3,441 955,954 26,428 1,881,382 134,482

2017

January 88,281 9,172 521 144,794 4,132 233,075 13,304

February 77,351 8,005 430 119,401 3,421 196,752 11,426

March 81,876 8,545 420 116,732 3,343 198,608 11,889

April 75,694 7,985 342 95,107 2,748 170,801 10,733

May 73,605 7,762 275 76,463 2,243 150,068 10,006

June 66,766 7,015 203 56,294 1,689 123,060 8,705

July 68,225 7,164 164 45,570 1,404 113,796 8,568

August 68,373 7,174 144 39,968 1,251 108,341 8,425

September 69,867 7,319 195 54,261 1,632 124,128 8,952

October 76,063 7,981 318 88,426 2,569 164,490 10,550

November 76,719 8,476 388 107,907 3,095 184,626 11,572

December 84,997 10,174 461 128,013 3,469 213,010 13,643

Overall: 907,817 96,775 3,863 1,072,939 30,996 1,980,756 127,771

2018

January 85,535 10,485 455 126,348 3,330 211,883 13,815

February 75,552 9,285 413 114,836 3,027 190,388 12,312

March 78,921 9,798 431 119,789 3,167 198,710 12,965

April 72,874 9,157 328 91,166 2,444 164,040 11,601

May 72,461 9,152 240 66,599 1,833 139,060 10,985

June 67,005 8,503 174 48,408 1,372 115,413 9,874

July 67,971 8,629 140 38,907 1,140 106,877 9,768

August 67,245 8,532 98 27,118 861 94,363 9,393

September 67,816 8,578 107 29,812 943 97,628 9,521

October 73,764 9,311 317 87,958 2,367 161,722 11,678

November 51,020 6,440 434 120,527 3,162 171,547 9,602

December 12,439 1,567 165 45,770 1,212 58,209 2,779

Overall: 792,603 99,437 3,302 917,237 24,857 1,709,841 124,294

ECM 01: Install air source heat pump for townhouses

Townhouses are heated by a gas-fired furnace which provide recirculated air throughout
the building.

The furnaces are at the end of its service life and scheduled to be replaced.

Total ECM cost: $490,000

ECM 02: Upgrade wall cavity insulation and add exterior insulation

Current wall construction were at the Townhouses, Apartment, and Office Building are
of two types, both have an estimated
effective R-value of 8 which is below current standards.

Total ECM cost: $793,000

MarinaPark Energy Study
BC Housing

Marina Park is located at 4843 48 Ave, Delta, BC and includes fifty (50) one-bedroom apartments of

social housing and a common amenity room. Marina Park is a three-story wooden framed building built

in 1988, approx. 35,500 ft2.

The windows are original to the building. One (1) natural gas boiler original to the building and installed

in 1988 supplies heating hot water to perimeter hydronic baseboards in the suites and

common areas.

Domestic hot water (DHW) is produced by one (1) natural gas hot water boiler also original to the

building and stored in a hot water storage tank. Both boilers, DHW storage tank and all pumps are located

in the central mechanical room.

Ventilation is provided by two (2) supply fans located on the roof and in the 3rd floor ceiling space. Both

supply fans are original to the building and provide unconditioned outdoor air to the corridors via ducting

and supply grilles.

3 �

Existing Facility / Building Description

Table 2 – Building Information

Building Information Description

Fortis Account Number 734459
Premise Number 505495

BC Hydro Account Number 1955 8200 082
Natural Gas Utility Rate $8.43/GJ

Electricity Utility Rate $0.114/kWh
Construction Type Wood framed

Age 30 years (Built in 1988)
Major Renovations None

General Physical Condition Average
Floor Area Conditioned 3,300 m2 (35,500 ft2)

Floor Area Non-conditioned 0
Total Floor Area 3,300 m2 (35,500 ft2)

Number of Floors 3
Occupancy Schedule 24/7

Number of Residential Units 50 one-bedroom apartments and amenity room of social housing
General System Description In suite heating via hydronic baseboards, DHW and space heating

provided through NG fired central heating plant. See page 17 for
detailed description of the building systems.

Energy Use Analysis

Utility consumption and cost from August 2017 to July 2018 was 174,700 kWh at $19,900 for Electricity

with a rate of $0.114/kWh, and 1,820 GJ at $15,300 with a rate of $8.43/GJ for Natural Gas.

Table 3 presents actual natural gas usage for last year.

4 �

Table 3 – Monthly Natural Gas Consumption for 2017

Natural Gas End-Use Breakdown

Natural Gas is utilized by the central heating boiler that supplies hot water to the perimeter baseboards.

The central DHW boiler also utilizes Natural Gas for DHW production.

Table 4 presents actual natural gas usage for the past 3 years

Table 4 – Natural Gas End-Use Breakdown

Electricity Total Consumption

0

50

100

150

200

250

2017 Monthly Consumption (GJ)

5 �

Available Electricity utility data is for 3 years.

Table 5 presents actual electricity usage for last year.

Table 5 – Monthly Electricity Consumption for 2017

–

2,000

4,000

6,000

8,000

10,000

12,000

14,000

16,000

18,000

2017 Monthly Electricity Usage (kWh)

The existing space heating boiler has an input

capacity of 1,080 MBH. We have calculated the total

heating requirement to be closer to 400 MBH for

full heating at peak loads. The existing DHW boiler

has an input capacity of 399 MBH with a 115-gal

storage tank.

Existing space heating boiler

Existing DHW boiler

The HVAC ductwork is in overall poor condition.
Some exhaust ductwork are not sealed,
which is a code violation.

Paula
Carimbo

The majority of outdoor lighting at Marina Park currently utilizes conventional incandescent fixtures with

some CFL replacements. Outdoor lighting consists of pole lighting and wall packs on the building exterior,

all

controlled by photocells.

Existing outdoor pole lighting

Existing building exterior wall packs

The building envelope is deemed to be in average condition.
Some envelope deficiencies were observed including high rates of
outdoor air infiltration through poorly sealed windows.

Paula
Carimbo

Interior lighting of the common areas at Marina Park is

exclusively by fluorescent bulbs in the common corridors. Some

fixtures have already been replaced with LEDs and the

remaining fluorescent tubes are currently being replaced with

LEDs.

Existing indoor hallway lighting

17 �

System Description

Heating, DHW and Ventilation Systems

Ventilation to the hallways is provided by two (2) supply fans located on the roof and in the ceiling space

above the 3rd floor. Both fans are original to the building and are ducted to two (2) supply air grilles on

each floor. As there is no heating of ventilation air, both fans supply unconditioned outdoor air so it is

presumed that these fans are turned off during the winter.

Heating hot water for space heating is supplied by one (1) natural gas boiler and domestic hot water is

produced by one (1) natural gas hot water boiler. Both boilers are located in the Mechanical room and are

original to the building. Space heating is delivered by perimeter hydronic baseboards in the suites and

common areas.

The central boiler plant consists of one (1) AAE Super Hot 1080 MBH boiler for space heating, one (1)

Lars Mighty Therm 399 MBH hot water boiler for DHW production and one (1) Rheem 115-gal indirect

heated storage tank for DHW. Delivery temperature for the DHW hot water is determined by the storage

tanks. Both boilers are nearing their end of life expectancy.

Mechanical room including existing DHW boiler, DHW storage tank and space heating boiler

18 �

Control equipment

For the major equipment in the mechanical room, controls are

local to the equipment.

Space heating baseboards respond to local manual dial wall

mounted controls in the suites and common areas while some

baseboards are controlled by a manual dial on the unit itself.

Plumbing Fixtures

None of the existing plumbing fixtures on site were observed to

be low flow.

Electrical Systems

Other than lighting, the main components of the common electrical systems are the heating water and

DHW circulation pumps, the ventilation fans, and the elevator.

Each suite has a refrigerator and stove, neither of which are ENERGY STAR rated. There is also a kitchen

exhaust hood in each suite but no bathroom exhaust.

Lighting Systems

Interior lighting of the common areas is a combination of CFL PL lighting in wall mounted fixtures in the

hallways, some ceiling dome LED fixtures, and fluorescent T8 fixtures in the amenity room, laundry

room, office and stairwells. However, it was observed that all fluorescent T8 lamps are currently being

replaced with ballast ready LED lamps.

Lighting in the suites predominantly consists of incandescent lighting with some LED and fluorescent

lighting in the living rooms and kitchens.

Existing indoor entrance lobby LED lighting

Existing in-suite manual dial
control for hydronic baseboards

19 �

Outdoor lighting is a combination of incandescent and CFL bulbs for

the pole lighting, incandescent wall packs on the building exterior, and

one (1) HID fixture on the building exterior. Exterior lighting is

controlled by photocells.

Envelope System

The building is wooden framed with a sloped roof and windows are standard double pane with aluminum

frames.

Existing building exterior
lighting

Existing indoor amenity room lighting

ECM 01: Boiler Replacement

“Very common in all buildings of this vintage, boilers are oversized for what is actually needed to

meet heating requirements.”

Total ECM 01 cost: $36,800

ECM 02: Lighting

a) Outdoor Lighting

The majority of outdoor lighting at Marina Park currently utilizes conventional incandescent

fixtures with some CFL replacements. Outdoor lighting consists of pole lighting and wall packs

on the building exterior, all controlled by photocells.

Total ECM 02a cost: $4,980

b) Indoor Lighting of Common Areas

Interior lighting of the common areas at Marina Park is exclusively by fluorescent bulbs in the

common corridors.

Total ECM 02b cost: $1,030

Consumption

Consumption

kWh GJ ekWh ekWh

January 16,676 135.88 37,639 54,316

February 14,731 213.53 59,148 73,878

March 15,622 217.06 60,125 75,747

April 14,388 173.53 48,068 62,456

May 13,813 124.12 34,381 48,193

June 12,532 80.00 22,160 34,692

July 12,366 64.12 17,761 30,127

August 12,135 74.71 20,694 32,829

September 12,599 107.65 29,818 42,417

October 13,851 167.06 46,275 60,126

November 14,674 223.53 61,918 76,591

December 16,630 282.94 78,375 95,005

Overall: 170,016 1,864.12 516,361 686,377

January 15,390 242.11 67,063 82,453

February 13,891 197.89 54,817 68,708

March 14,006 188.42 52,193 66,199

April 13,056 138.95 38,488 51,544

May 13,021 106.84 29,595 42,616

June 12,266 90.53 25,076 37,342

July 12,356 76.84 21,285 33,641

August 12,406 71.05 19,682 32,088

September 12,659 101.58 28,137 40,797

October 13,627 143.16 39,655 53,282

November 14,080 187.37 51,901 65,981

December 15,596 266.32 73,769 89,366

Overall: 162,356 1,811.05 501,662 664,017

January 14,200 208.80 57,838 72,038

February 14,800 204.70 56,702 71,502

March 13,200 189.80 52,575 65,775

April 13,100 176.20 48,807 61,907

May 13,700 137.00 37,949 51,649

June 13,600 101.90 28,226 41,826

July 14,000 85.30 23,628 37,628

August 15,700 87.80 24,321 40,021

September 13,800 95.60 26,481 40,281

October 13,900 139.60 38,669 52,569

November 15,600 196.80 54,514 70,114

December 16,500 218.60 60,552 77,052

Overall: 172,100 1,842.10 510,262 682,362

January 15,840 227.50 63,018 78,857

February 13,991 206.50 57,201 71,192

March 14,615 215.50 59,694 74,309

April 13,495 164.00 45,428 58,923

May 13,419 120.00 33,240 46,659

June 12,408 87.00 24,099 36,507

July 12,587 70.00 19,390 31,977

August 12,453 49.00 13,573 26,026

September 12,559 53.50 14,820 27,378

October 13,660 158.50 43,905 57,565

November 13,700 217.00 60,109 73,809

December 16,400 220.00 60,940 77,340

Overall: 165,127 1,788.50 495,415 660,541

Energy Total

Consumption

2018

Year Month

Electrical

2015

2016

2017

Fuel Total

KINSMENRAVINE ESTATES

NEWTON KINSMEN HOUSING SOCIETY

11030, RAVINE ROAD, SURREY, BC, V3T 5S2

BC HOUSING

ENERGY STUDY REPORT

SEPTEMBER 2018

Background Description of Facility, Hardware
and Systems

5 BACKGROUND DESCRIPTION OF FACILITY, HARDWARE AND SYSTEMS

5.1 Overview

5.1.1 Facility Description

Figure 1: Kinsmen Ravine aerial view

Facility Kinsmen Ravine Estates is a multi-unit residential building with
underground parkade and children daycare facility. This energy study
focuses on daycare building and underground parkade.

Description: Kinsmen Ravine facility has one (1) daycare building, sixteen (16) 2-
bedroom units, eight (8) 3-bedroom units, four (4) 4-bedroom units,
and two (2) 3-bedroom handicap units. The underground parking is
located in the south-west corner of the facility.

Facility Age: Kinsmen Ravine Estates was built in 1993.

Facility Size: The daycare building and underground parking have a total area of
approximately 15,287 ft².

Type of Use: The daycare facility operates 7 am to 6 pm from Monday to Friday year-
round.

Structure: Concrete and wooden framed structure.

Background Description of Facility, Hardware
and Systems

Heating and
Ventilation
System:

Heating and Ventilation – Space heating and ventilation is provided by
one (1) forced air furnace unit located in the storage area of the
building. The unit has capacity of 100,000 Btu/hr.

Physical
Condition:

In general, mechanical equipment are at the end of their economical
life.

Envelope: The building envelope of Kinsmen Ravine Estate is in average condition.

Occupancy: The projected occupancy of the building is the same as the present
occupancy as no changes are planned.

5.1.2 Facility Utility Accounts and Rates

In this building, tenants pay for their own electricity and natural gas use. The society pays
for the utilities for daycare building and underground parking.

The utility rates used to calculate energy savings throughout this report are as follows:

5.1.2.1 Electricity

Consumption charge: $0.1173/kWh (BC Hydro – Small General Service Rate)

5.1.2.2 Gas

Consumption charge: $5.822/GJ (FortisBC – Natural Gas Rate 2)

Background Description of Facility, Hardware
and Systems

5.2 Mechanical Systems

5.2.1 Heating and Ventilation System –Daycare Building

Space heating and ventilation to the daycare building is provided by one (1) “Rheem” gas
fired forced air furnace unit located in the storage room. The conditioned air is supplied to
corridors and rooms through a discharge grille located throughout the building. The unit is
original to the building (1993). The unit has maximum input capacity of 100,000 BTU/hr.

The supply air temperature is controlled by a thermostat located in the daycare area of
the building.

Figure 2: Forced Air Furnace

Unit

Figure 3: Supply Air Temperature Controller

The storage room houses a forced air furnace and DHW storage heater as shown in Figure
4. During site audit, it was found that the same room is used to store different items along
with the heating equipment.

Forced Air
Furnace Unit

Background Description of Facility, Hardware
and Systems

Figure 4: Storage Room

The sprinkler room in underground parking is served by one (1) electric baseboard heater
as shown in Figure 5.

Figure 5: Electric baseboard heater

5.2.1 Exhaust Systems

Air is exhausted from the two (2) washrooms by two (2) dedicated ceiling mounted
exhaust fans. The air is exhausted directly to the atmosphere through discharge cowls on
the roof. These exhaust fans are controlled manually by a switch.

Figure 6: Exhaust Fan in Washroom

Background Description of Facility, Hardware
and Systems

5.2.2 Domestic Hot Water Systems

Domestic Hot Water (DHW) to the building’s plumbing fixtures is provided by one (1)
“RHEEM RUUD” domestic hot water heater (model# RF82-156C) located in the storage
room. The unit has input capacity of 156,000 BTU/hr and storage capacity of 82 gal. The
unit was installed in 1993 and is deemed to be at the end of its rated economical life as
determined by ASHRAE (American Society of Heating, Refrigerating and Air-
Conditioning Engineers).

Figure 7: Domestic Hot Water Storage Heater

5.2.3 Laundry Facility

The daycare building has one (1) laundry room. There is one (1) coin-operated front-
loading “MAYTAG” electric washing machine, and one (1) “MAYTAG” front-loading electric
dryer.

Figure 8: Dryers (left) and washing machines

The following table provides a summary of the Heating and Ventilation Systems.

Background Description of Facility, Hardware
and Systems

Table 3: Overview Heating and Ventilation Systems and Areas Served

Name Area Served Description

Forced air furnace Whole Building RHEEM RGLE-10EQAGB

Domestic hot water

storage heater
Whole Building RHEEM RUUD RF82-156C

5.2.1 Typical Residential Suite System Description

Space heating and ventilation to each residential suite is provided by an in-suite forced air
furnace as shown in Figure 9. These forced air furnaces are manually controlled using
adjustable thermostats. Domestic hot water (DHW) is provided by dedicated DHW storage
tank water heater as shown in Figure 10. Each apartment has its own dedicated exhaust
serving the kitchen. The fractional HP fan motors are controlled by manual switch and
operate based on occupant usage. Each apartment is equipped with a refrigerator.

Figure 9: Typical Forced Air Furnace Unit – Residential Suites

Figure 10: Typical DHW Storage Heater – Residential Suites

Background Description of Facility, Hardware
and Systems

5.3 Heating and Ventilation Control System and Strategy

5.3.1 Control System

The facility does not have a central DDC controls system. The heating and ventilation units
are controlled via standalone thermostats. The forced air furnaces in the residential suites
are controlled by an adjustable thermostat as shown in Figure 11. The exhaust fans in
washrooms and kitchen are manually controlled by switches.

Figure 11: Thermostat for Forced Air Furnace

5.3.2 Maintenance and Operating Issues

The forced air furnaces and DHW storage heaters in the facility are at the end-of-
economic life and are requiring an increasing amount of repair.

The building envelope is deemed to be in average condition. Some envelope deficiencies
were observed including high rates of outdoor air infiltration through poorly sealed
entrances and exits. Doors and windows that are poorly sealed require additional heating
to maintain the building at desired temperature. Envelope upgrades could improve the
building’s overall R-Value.

Figure 12: Entrance to Outside Play Area – Daycare Building

Poor Door Seal

Background Description of Facility, Hardware
and Systems

5.3.3 Heating and Ventilation Equipment Tables

A complete inventory of heating equipment is provided in Appendix A.

5.3.4 Asset Management

Kinsmen Ravine Estates was built in 1993. It is typical with existing building that retrofits,
and upgrades take place throughout its lifespan and as such the record documentation
should be updated to ensure that efficient operation and maintenance can occur. It has
been well documented and proven on numerous facilities throughout Canada that
substantial energy and maintenance savings occur on facilities that actively participate in
an ongoing active asset management plan with paybacks ranging from 2-6 years.

It is highly recommended that a new active asset management strategy is implemented in
conjunction with the existing facilities team. A budget cost for an active asset
management strategy, including equipment asset renumbering/verification and new all-
inclusive operation and maintenance manuals is approximately $3,000.

Background Description of Facility, Hardware
and Systems

5.4 Electrical & Lighting Systems

5.4.1 Description of Electrical Systems

Electrical power to the facility is distributed at 120/208V and is used for the facility’s
internal and external lighting, plug loads and mechanical equipment.

5.4.2 Lighting Description

The lighting in the daycare building at Kinsmen Ravine Estates is a mixture of T12 linear
fluorescent fixtures, screw-in incandescent lamps, LED exit signs and LED luminaires in
corridor as shown in Figure 14.

Figure 13: Code Compliant Exit Sign

For a detailed inventory of luminaires in the facility, refer to Table 55 in Appendix A.

Figure 14: Lighting in Daycare Building

Background Description of Facility, Hardware
and Systems

Figure 16: External Lighting

Figure 17: Underground Parking – LED luminaire (left) and linear fluorescent (right)

Background Description of Facility, Hardware
and Systems

5.4.3 Maintenance Issues

The site audit did not reveal any outstanding maintenance issues with the electrical
systems.

5.4.4 Non-mechanical Loads

The primary non-mechanical loads are related to the lighting, communication equipment
and plug loads.

• Total installed lighting power capacity: 5.0 kW

• Estimated annual lighting electricity consumption: 18,948 kWh

5.4.5 Lighting Levels

The lighting levels throughout the facility were within the recommended range in most
areas. In daycare classroom, lighting levels were lower than recommended levels as shown
in below table.

Figure 18: Lighting Levels in Facility

Measured light levels with available guidelines are summarized in the table below.

Table 4: Kinsmen Ravine Estates Illumination Levels1

Areas
Reference Lux Levels

Guidelines
Average Lux Levels Measured

During Site Audit

Corridor 50 – 100 190 – 215

Daycare Classroom 300 – 500 230 – 250

Laundry 150 – 300 160

Storage Room 50 – 300 45 – 90

1 Illuminating Engineering Society of North America (IESNA) 10th Edition

Background Description of Facility, Hardware
and Systems

5.4.6 Lighting Control System and Strategy

The facility has no automated lighting control system. General lighting circuits are
controlled manually via wall switches. Exterior lighting is controlled via timer.

5.4.7 Plug Loads and Auxiliary Equipment

Plug loads include computers, copiers and scanners in the office, in-suite plug loads, and
laundry equipment.

Energy Accounting System

6 ENERGY ACCOUNTING SYSTEM

6.1 Description of Energy Accounting Methodology

Assessing energy use and evaluating efficiency is undertaken by benchmarking the facility’s annual
energy intensity (equivalent-kWh/m2/yr). This measure of building energy use must then be
referenced against buildings of similar vintage, climatic region, use, and type.

In order to best prioritize and discuss energy conservation opportunities at the facility, an
estimated end-use breakdown has been developed. This breakdown represents the probable
energy consumption by end-use based upon historical annual utility records, detailed data on
equipment and systems installed, and an understanding of facility operation strategies.

6.2 Historic Utility Records and Energy Intensity

The utility records and annual consumption profile for daycare building and underground parking
are summarized in the following table from June 2016 to May 2018. The utility records indicate a
relatively consistent consumption of energy over the last two (2) years.

The Newton Kinsmen Society pays for all utilities in daycare building and underground parkade.
The daycare building is served by three (3) BC Hydro electricity meters and one (1) FortisBC
natural gas meter.

Tenants pay for their own electricity and natural gas consumption. This study focuses on daycare
building and underground parking only.

Table 5: Summary of Historic Utility Records and Energy Intensity – Daycare Building

Year

Electricity Gas

Total Energy
Intensity

Peak
Month

Demand
Consumption Annual

Utility
Cost

Consumption
Annual

Utility Cost

[kW] [kWh] [kWh/m2/yr] [GJ] [e-kWh/m2/yr]
[e-kWh/
m2/yr]

June
2016 to

May
2017

Not
Available

25,049 17.6
Not

Available
48.4 9.5

Not
Available

27.1

June
2017 to

May
2018

Not
Available

25,341 17.8
Not

Available
44.4 8.7

Not
Available

26.5

Energy Accounting System

Figure 19: June’16 to May’17 Annual Utility (Electrical and Gas Consumption) Profile

Figure 20: June’17 to May’18 Annual Utility (Electrical and Gas Consumption) Profile

Energy Accounting System

Figure 21: June’16 to May’17 Annual Electrical Consumption Profile

Figure 22: June’17 to May’18 Annual Electrical Consumption Profile

Energy Accounting System

Figure 23: June’16 to May’18 Annual Electrical Consumption Profile

The base natural gas load in the summer reflects domestic hot water use.

Figure 24: June’16 to May’17 Annual Natural Gas Consumption Profile

Energy Accounting System

Figure 25: June’17 to May’18 Annual Natural Gas Consumption Profile

Figure 26: June’16 to May’18 Annual Natural Gas Consumption Profile

Energy Accounting System

6.2.1 Heating Degree Day (HDD) Comparison

The annual gas consumption has been compared to heating degree days (a measure of
how cold the weather is) and this profile below shows that usage relates well to heating
degree days (HDD).

Figure 27: June’16 to May’17 Annual Natural Gas Consumption Profile Compared to HDD

Figure 28: June’17 to May’18 Annual Natural Gas Consumption Profile Compared to HDD

Appendix A: Inventory of Heating and
Ventilation & Electrical Systems

10 APPENDIX A: INVENTORY OF HEATING AND VENTILATION & ELECTRICAL SYSTEMS

10.1 Heating Systems

Table 54: Inventory of Heating and Cooling Equipment.

#
Designation

Location
Area of
Service

Manufacturer Model # Serial #

Forced Air
Furnace

Unit

Storage Room –
Daycare
Building

Whole
Building

Rheem
RGLE-10EQAGB AG5D302

DHW
storage
heater

Storage Room –
Daycare
Building
Whole
Building

Rheem Ruud RF82-156C
RCN

1292D08447

10.2 Lighting Systems

Table 55: Inventory of Lighting

Room name Luminaire type Qty

Office T12-40W-2L-4ft-Mag 2

Corridor Standard LED-15W-Ceiling Dish 4

Laundry T12-40W-2L-4ft-Mag 2

Washroom Incand-A19-40W-4L 2

Daycare classroom T12-40W-2L-4ft-Mag 10

Daycare storage room Incand-A19-40W 2

Underground parking T8-32W-1L-4ft-Elec 15

Underground storage – 1 T12-40W-2L-4ft-Mag 2

Underground storage – 2 T12-40W-1L-4ft-Mag 4

External Standard LED-15W-Ceiling Dish 7

External LED-52W-Wallpack 2

External LED-80W-Wallpack 6

External LED-26W-Wallpack 6

Underground parking LED-26W-Garage light 9

Underground parking LED-26W-Wallpack 19

Exit signs Exit-LED fixtures 5

Pole lights Pole-100W-MH 2

Flood lights PAR38-90W 10

ECM 01: Replace Existing Forced Air Furnace Unit with High Efficiency Air Source Heat

Pump

Unit

The existing “Rheem” gas fired forced air furnace provides heated air to the building. The unit is

original to the building (circa 1993) and it is at the end of its rated economical lifespan and failures

due to age will increase in the future. Greenhouse gas emissions reductions (tonnes e-CO2/yr)

and energy savings would be observed if the existing unit is replaced with an air source heat

pump.

Total ECM 01 cost: $9,000

ECM 02: Replace Existing Forced Air Furnace with High Efficiency Condensing Air Furnace

Unit
The existing “Rheem” gas fired forced air furnace provides heated air to the building. The unit is
original to the building (circa 1993) and it is at the end of its rated economical lifespan and failures

due to age will increase in the future.

Total ECM 02 cost: $900

Consumption Consumption

kWh GJ ekWh ekWh

January 2,566 3.40 941 3,507

February 2,266 5.34 1,479 3,745

March 2,403 5.43 1,503 3,906

April 2,214 4.34 1,202 3,415

May 2,125 3.10 860 2,985

June 1,928 2.00 554 2,482

July 1,903 1.60 444 2,347

August 1,867 1.87 517 2,384

September 1,938 2.69 745 2,684

October 2,131 4.18 1,157 3,288

November 2,257 5.59 1,548 3,805

December 2,558 7.07 1,959 4,518

Overall: 26,156 46.60 12,909 39,065

January 2,368 6.54 1,813 4,180

February 2,137 5.35 1,482 3,619

March 2,155 5.09 1,411 3,565

April 2,009 3.76 1,040 3,049

May 2,003 2.89 800 2,803

June 1,887 2.45 678 2,565

July 1,901 2.08 575 2,476

August 1,909 1.92 532 2,441

September 1,948 2.75 760 2,708

October 2,096 3.87 1,072 3,168

November 2,166 5.06 1,403 3,569

December 2,399 7.20 1,994 4,393

Overall: 24,978 48.95 13,558 38,536

January 2,119 5.49 1,522 3,641

February 2,209 5.39 1,492 3,701

March 1,970 4.99 1,384 3,354

April 1,955 4.64 1,284 3,240

May 2,045 3.61 999 3,043

June 2,030 2.68 743 2,773

July 2,090 2.24 622 2,711

August 2,343 2.31 640 2,983

September 2,060 2.52 697 2,757

October 2,075 3.67 1,018 3,092

November 2,328 5.18 1,435 3,763

December 2,463 5.75 1,593 4,056

Overall: 25,687 48.48 13,428 39,115

January 2,437 5.99 1,658 4,095

February 2,152 5.43 1,505 3,658

March 2,248 5.67 1,571 3,819

April 2,076 4.32 1,195 3,272

May 2,064 3.16 875 2,939

June 1,909 2.29 634 2,543

July 1,936 1.84 510 2,447

August 1,916 1.29 357 2,273

September 1,932 1.41 390 2,322

October 2,102 4.17 1,155 3,257

November 2,108 5.71 1,582 3,690

December 2,523 5.79 1,604 4,127

Overall: 25,404 47.07 13,037 38,441

2015

2016

2017

2018

Fuel Total

Month

Electrical Energy Total

ConsumptionYear

Weak conduit sealing on the walls of
every unit.

Air leakage in diagnostic “smoke test” failed
around plugs.

Alireza
Stamp

Alireza
Stamp

ECM 01: High-Efficiency Condensing DHW Heaters

Replace the existing hot water tanks with high efficiency condensing hot water heaters to

provide DHW production. Beresford currently has two (2) 250 MBH natural gas fired hot water

tanks supplying and storing DHW, each with a capacity of 80 gallons. Both tanks were installed

in 2001. There is also a constant speed recirculation pump for the DHW system.

Total ECM 01 cost: $22,000

ECM 02: Programmable Thermostats for Electric Baseboards

Space heating is currently provided by perimeter electric baseboards locally controlled by wall

mounted thermostats in the suites. There is no high temperature limit on these controls an the

suites are not metered separately for electricity

Total ECM 02 cost: $8,300

Consumption

Consumption

kWh GJ ekWh ekWh

January 41,500 55.00 15,235 56,735

February 31,950 48.10 13,324 45,274

March 31,050 52.10 14,432 45,482

April 19,000 53.90 14,930 33,930

May 15,500 41.10 11,385 26,885

June 13,800 42.70 11,828 25,628

July 14,400 43.50 12,050 26,450

August 15,890 35.20 9,750 25,640

September 21,100 33.10 9,169 30,269

October 33,400 35.00 9,695 43,095

November 32,200 47.50 13,158 45,358

December 40,000 49.80 13,795 53,795

Overall: 309,790 537.00 148,749 458,539

January 40,600 57.00 15,789 56,389

February 33,500 48.80 13,518 47,018

March 30,900 51.00 14,127 45,027

April 19,540 55.20 15,290 34,830

May 14,840 41.00 11,357 26,197

June 13,330 43.20 11,966 25,296

July 13,040 43.80 12,133 25,173

August 12,880 34.80 9,640 22,520

September 19,940 33.40 9,252 29,192

October 33,340 34.50 9,557 42,897

November 32,400 46.60 12,908 45,308

December 41,400 50.00 13,850 55,250

Overall: 305,710 539.30 149,386 455,096

January 41,940 56.00 15,512 57,452

February 32,950 47.00 13,019 45,969

March 31,060 52.00 14,404 45,464

April 18,810 54.00 14,958 33,768

May 15,040 41.30 11,440 26,480

June 13,040 43.10 11,939 24,979

July 12,550 43.80 12,133 24,683

August 13,320 35.00 9,695 23,015

September 20,040 33.50 9,280 29,320

October 32,640 35.00 9,695 42,335

November 31,320 47.10 13,047 44,367

December 40,200 49.80 13,795 53,995

Overall: 302,910 537.60 148,915 451,825

January 40,680 56.50 15,651 56,331

February 34,800 46.80 12,964 47,764

March 29,640 51.80 14,349 43,989

April 18,000 54.10 14,986 32,986

May 15,600 41.50 11,496 27,096

June 13,200 42.80 11,856 25,056

July 12,960 44.10 12,216 25,176

August 13,000 35.10 9,723 22,723

September 19,500 33.80 9,363 28,863

October 31,000 35.10 9,723 40,723

November 30,800 48.00 13,296 44,096

December 40,900 49.50 13,712 54,612

Overall: 300,080 539.10 149,331 449,411

Energy Total

Consumption

2018

Year Month

Electrical

2015

2016

2017

Fuel Total

BCHousing – Sunnyside Manor

BCH Sunnyside Manor 1495 Esquimalt
Ave, West Vancouver, BC April 1, 2019

BCH Sunnyside Manor Energy Audit
1495 Esquimalt Ave, West Vancouver, BC
April 1, 201

9

3

2. BUILDING DESCRIPTION

Sunnyside Manor was built in 1974 and has an area of 9,750m2. It is a
subsidized housing facility for persons aged 55 years and older. There are

8

floors with 7 residential suites, and one floor with 4 residential suites, a
manager’s suite, and hobby room. The ground floor has a 125m2 recreation
room with kitchen, laundry and storage rooms, a manager’s office, and
reading room. All occupied levels are above grade. Below grade is a
combined boiler and water entry room, with the main electrical room
attached.

The 10-storey building façade is concrete, with vinyl trim around some of the
single-pane windows. Each suite has a walk-out balcony, with swinging glass
doors and operable windows. The brutalist design was proposed by Denis
Tusar Associates Architects.

Building Details

Address: 1495 Esquimalt Ave, West Vancouver

Type: Residential

Year: 197

4

Area (m2): 9,750

# Floors: 10 above grade

Schedules and Occupancy

The building has an estimated occupancy of 70 occupants, with a
multifamily type schedule which varies occupancy throughout the day.
Equipment, occupancy, and lighting schedules used to model the building
are taken from MNECB for multifamily buildings.

Figure 1: 1495 Esquimalt Ave

Figure 2:Satellite View

2016 2017 2018 (partial)

Energy Use (GJ) 4.386 4,436 2,774

Energy Cost ($) 42,174 36,556 41,234

Table 1: Building energy use cost, from available utility data

BCH Sunnyside Manor Energy Audit
1495 Esquimalt Ave, West Vancouver, BC
April 1, 2019

4

3. SYSTEMS DESCRIPTIONS

HVAC Systems

Heating for the building is provided by two gas fired boilers located in the below
grade mechanical room. These boilers are LAARS PNCH075 with constant speed
pumps which circulate to the radiant zones in the building.

There is no mechanical plant level cooling for the building. Suites have operable
windows for occupant comfort in warmer seasons.

Ventilation air is provided by a gas-fired roof mounted air handling unit that
provides tempered air to corridor spaces. The roof mounted unit also provides
ventilation air to the ground floor recreation room.

Individual suites have undercut doors and are equipped with washroom exhaust
fans and kitchen range hoods that draw ventilation air from the corridor into the
suite.

Domestic Water Systems

Domestic hot water for the building is provided by two gas-fired
hot water heating tanks, which are in the below grade
mechanical room. Two 120 US gallon storage tanks are also
installed to provide additional hot water during periods of high
demand. A single speed pump recirculates DHW through the
building.

Controls

There is a simple control logic system that operates the building
heating plant. There is no end-user interface that displays
temperatures or pump and boiler status or allows for simple
adjustment of plant control parameters. A single control panel
is present in the basement boiler room.

Figure 3: Boiler Plant

Figure 4: DHW Heaters

Figure 5: DHW Storage Tanks

BCH Sunnyside Manor Energy Audit
1495 Esquimalt Ave, West Vancouver, BC
April 1, 2019

5

Lighting Systems

The existing lighting system is over 40 years old and has gone through
one lighting upgrade in this period. Based on site surveys and the as-
building record, the current interior lights consist of CFL, T8
fluorescent, incandescent, and LED light fixtures and are controlled by
local line-voltage manual switches. No lighting control automation was
noted in the interior. The exterior lighting fixtures are HIDs and
controlled by a time clock.

After Sunnyside Manor completed in 1973, the interior lighting system
went through one upgrade to replace most of incandescent luminaires
with CFL luminaires or LED lamps in 2011. The exterior lighting layout
also were redesigned to suit the functionality need in 2011. Controls
for both interior and exterior lighting systems have not been upgraded
since the building completion.

Figure 6: Typical surface mounted corridor

lighting

Figure 7: Typical surface mounted
residential unit lighting

Figure 9: Typical new LED
downlight for renovated lobby

lighting

Figure 8: Typical exterior HID lighting fixtures

BCH Sunnyside Manor Energy Audit
1495 Esquimalt Ave, West Vancouver, BC
April 1, 2019

6

Building Envelope

The concrete and glass construction building have exposures
to all cardinal directions.

The roof of the building was repaired in 2004 but no roof leaks
have been reported. The roof is a built-up roofing membrane
on a concrete deck with gravel or SBS granulated asphalt on
rigid insulation. No roof leaks were reported during the review.

Glazing makes up approximately 20% of the building’s façade,
which consists of a mix of operable and non-operable,
aluminum framed single pane windows. Windows are in fair
condition, with no leaks or condensation found or reported.

The main building entrance consists of glazing with a single
door leading into a foyer on the south side of the building.
There are additional glazed double door entrances to the
recreation room, and steel double door entrances on the first
floor to the garbage rooms. No major air leakage was reported
through the doors.

Figure 10: Roof MUA and ballast

Figure 11: Recreation room entrances

Figure 12: Main building entrance

BCH Sunnyside Manor Energy Audit
1495 Esquimalt Ave, West Vancouver, BC
April 1, 2019

7

4. SYSTEMS ASSESSMENTS

Domestic Water Systems

Parts of the domestic water system was replaced as recently as 2007, as the
domestic hot water boilers in Figure 4 were manufactured in 2007. Additional
hot water storage tanks were added in a 2012 “re-pipe”, where only the
domestic hot and cold water pipes were replaced. Also completed during the
2012 re-pipe was installation of a new pressure reducing station and backflow
preventer. The existing water meter was replaced in 2012. Refer to Figure 13.

Fire Protection Systems

Within the mechanical space in the basement there is a fire protection header
that appears to be original from when the building was constructed. Corrosion
is visible on the valve handles (see Figure 13). The sprinkler system only serves
the garbage chute and room and a wet stand pipe. The fire protection main
seems to be separated from the DCW by check valves.

Heating Water Systems

The condition of the heating hot water distribution system is unknown, as it
was not included in the 2012 re-pipe. Heating water boilers were
manufactured in 2005, installed as part of a boiler plant upgrade that began
in 2004. Hot water pumps appear to have had the motors replaced
during a recent upgrade, however the pump casings look to be
original (see Figure 14).

Roof Mounted Make-up Air Unit

The gas-fired ventilation unit was manufactured in 2005. While the
exterior is slightly weathered, the unit itself continues to operate
without issue. It is the sole source of ventilation air in the building with
4200 CFM capacity. It meets the ventilation air requirements of the
building, and fresh air reaches individual suites due to residential
exhaust fans negatively pressurizing the suites and drawing in fresh
air from the corridor.

Figure 13: Fire protection header at
high level, with recently installed

backflow preventer and PRV station
below

Figure 14: Heating water distribution pump
with upgraded motor and original pump

casing

BCH Sunnyside Manor Energy Audit
1495 Esquimalt Ave, West Vancouver, BC
April 1, 2019
8

5. UTILITY ANALYSIS

Utility Structures & Rates

Electricity

The electricity consumption rate is broken down into a tiered rate structure that consists of fixed charges
and consumption (kWh) charges. For this assessment, an effective rate was used to calculate the estimated energy
cost savings expected from the implementation of the Energy Conservation Measures (ECMs) suggested. The
effective energy rate combines fixed and consumption charges into a single rate.

Natural Gas

The natural gas utility rate is based on the applicable FortisBC rate schedule, provided in the table below. Like the
effective electrical rate, the natural gas rate contains fixed and consumption (GJ) charges according to the building
rate schedule which has been converted to an effective rate for convenience in ECM calculations.

Utility Vendor Rate Schedule Rate

Electricity BC Hydro Small General Service 34.21 $/GJ

Natural Gas FortisBC Commercial Rate 3 5.12 $/GJ

Table 2: Utility rates

Utility Breakdown

A breakdown analysis was performed to quantify the contribution of each energy source to the overall energy
consumption of the building, and the cost of each utility to the total annual utility cost. This analysis aids in the
identification of energy intensive systems and provides a useful tool for identifying potential opportunities to reduce
utility consumption and costs. This analysis is based on the most recent complete 12 months of utility data available
for the building.

Utility Annual Use (GJ) Annual Cost ($)

Electricity 631 $21,587

Natural Gas 4,194 $21,474

Total 4,825 $43,060
Table 3: Utility annual use and associated costs

BCH Sunnyside Manor Energy Audit
1495 Esquimalt Ave, West Vancouver, BC
April 1, 2019
9

Figure 15: Utility energy use breakdown, from provided meter data

Figure 16: Utility energy cost breakdown, from provided meter data

BCH Sunnyside Manor Energy Audit
1495 Esquimalt Ave, West Vancouver, BC
April 1, 2019

10

The accuracy of the actual consumption curves is reliant on the utility data frequency and actual versus estimated
meter readings. Deviations of the actual curves from predicted curves may sometimes occur due to the quality of this
data rather than the energy consumption patterns of the building.

Figure 17: 2016 building electricity consumption, from provided electrical meter data

Figure 18: 2017 building electricity consumption, from provided electrical meter data

BCH Sunnyside Manor Energy Audit
1495 Esquimalt Ave, West Vancouver, BC
April 1, 2019

11

Figure 19: 2018 building electricity consumption, from provided electrical meter data

Figure 20: 2016 building natural gas consumption, from provided natural gas meter data

BCH Sunnyside Manor Energy Audit
1495 Esquimalt Ave, West Vancouver, BC
April 1, 2019

12

Figure 21: 2017 building natural gas consumption, from provided natural gas meter data

Figure 22: 2018 building natural gas consumption, from provided natural gas meter data

Original PUMA data

Year 1 Month Electrical Fuel Total Energy Total

Consumption Cost2 Consumption Cost2 Consumption Cost2

kWh $ GJ ekWh $ ekWh $

2015

January 26,350 2,526 489 135,944 2,129 162,294 4,655

February 23,800 2,281 404 112,250 1,795 136,050 4,076

March 23,621 2,365 434 120,583 1,912 144,205 4,277

April 22,576 2,272 387 107,583 1,729 130,160 4,001

May 20,785 2,187 248 68,944 1,183 89,729 3,370

June 20,032 2,111 141 39,222 764 59,254 2,875

July 20,162 2,135 91 25,222 566 45,384 2,701

August 20,125 2,131 120 33,333 682 53,458 2,813

September 20,762 2,175 268 74,306 1,261 95,068 3,436

October 21,500 2,252 323 89,667 1,478 111,167 3,730

November 26,777 2,703 445 123,667 1,958 150,444 4,661

December 28,110 2,831 486 134,861 2,116 162,971 4,948

Overall: 274,600 27,969 3,836 1,065,583 17,573 1,340,183 45,542

2016

January 26,150 2,659 481 133,694 2,280 159,844 4,939

February 24,463 2,488 423 117,389 2,027 141,852 4,515

March 21,607 2,305 420 116,750 2,017 138,357 4,323

April 20,607 2,207 292 81,139 1,466 101,745 3,673

May 21,330 2,324 241 66,917 1,246 88,246 3,570

June 20,644 2,252 194 53,833 1,044 74,477 3,296

July 19,500 2,160 135 37,444 790 56,944 2,950

August 19,500 2,160 102 28,194 647 47,694 2,807

September

240 66,694 1,243 66,694 1,243

October

324 89,889 1,931 89,889 1,931

November

342 95,083 2,030 95,083 2,030

December

515 143,028 2,948 143,028 2,948

Overall: 173,800 18,556 3,708 1,030,056 19,669 1,203,856 38,225

2017

January

568 157,833 3,232 157,833 3,232

February

503 139,833 2,769 139,833 2,769

March 23,502 2,304 497 137,944 2,734 161,446 5,039

April 25,180 2,469 411 114,194 2,055 139,375 4,524

May 20,537 2,117 301 83,556 1,560 104,093 3,677

June 19,306 2,004 226 62,806 1,225 82,112 3,229

July 2,574 267 166 45,972 953 48,546 1,220

August

154 42,861 903 42,861 903

September

213 59,111 1,165 59,111 1,165

October

364 101,028 1,842 101,028 1,842

November

456 126,528 2,254 126,528 2,254

December

578 160,500 2,803 160,500 2,803

Overall: 91,100 9,162 4,436 1,232,167 23,495 1,323,267 32,658

2018

January 22,262 2,458 521 144,611 2,506 166,873 4,964

February 22,262 2,458 496 137,667 2,396 159,929 4,854

March 23,762 2,675 513 142,389 2,471 166,151 5,146

April 22,831 2,580 414 115,056 2,037 137,886 4,617

May 20,528 2,400 240 66,667 1,269 87,195 3,669

June 19,548 2,295 207 57,361 1,121 76,909 3,416

July 19,242 2,278 93 25,944 622 45,186 2,901

August 19,100 2,264 98 27,167 642 46,267 2,906

September 21,105 2,446 194 53,806 1,065 74,911 3,511

October 22,225 2,568 295 81,861 1,510 104,087 4,078

November 1,434 166 336 93,194 1,690 94,628 1,856

December

413 114,694 2,031 114,694 2,031

Overall: 214,300 24,588 3,818 1,060,417 19,361 1,274,717 43,949

Overall:

753,800 80,275 15,798 4,388,222 80,098 5,142,022 160,373

ECM 01: Air-Source Heat Pump Domestic Hot Water Heaters

To reduce greenhouse gas emissions, a fuel switch to electricity is the most
effective option.

Air-source heat pump (ASHP) domestic hot water heaters operate like an air
conditioner in reverse – taking heat from the outdoor air and transferring it to the
domestic hot water system.

Total ECM cost: $124,000

ECM 02: Envelope Upgrade – R-40 + Vinyl Glazing + Steel Stud Wall +
Concrete Wall

There have been no major improvements to the existing façade which has poor
thermal performance when compared to modern standards.

It is proposed to upgrade the glazing systems, roof construction, and add external
insulation to improve thermal performance.

This will provide an energy savings by reducing the heating demand on the
existing boiler plant.

Total ECM cost: $1,251,000

Building Description

Shelter that serves 3 meals/day and 2 snacks per day.

Shelter has 20 rooms, each with 2 beds, plus 4 couches that can also serve as beds.

They also have 40 single-room occupancy housing units that house individual tenants.

Photos

Top view of the building from Google Maps.

View of building from the street.

Picture of the boiler name-plate. Model AA-720M.

Boiler controls

Boiler controls

Specifications of the two domestic hot water tanks.

Tank 1 installation date.

Tanks 2 installation date.

Hot water recirculation pump specifications

Hot water recirculation pump

Light fixtures in lounge and dining area. Approx. 9 sets of 2 x 2×4’ CFL tubes

2 x refrigerators in dining area

Freezer in dining area

Cooking equipment in the kitchen

Dishwasher in the kitchen

Walk-in cooler

Temperature setting on walk-in cooler.

Refrigeration system of the walk-in cooling in the corner of the pantry,

Food storage guide on the refrigerator.

Elevator

Exit signs.

EnergyStar clothes washers in laundry room.

2 large clothes dryers.

Small fan to help cool laundry room.

Distribution of bleach and detergent into the washing machines.

Distribution of bleach and detergent into the washing machines.

Coffee, tea and hot water always available in the dining room.

Coffee, tea and hot water machine

located in the Urn room behind the taps in the dining room.

Coffee, tea and hot water machine

Lights in the hallway

Bath/shower

Ventilation air brought into corridors by grills in the hallway.

Series of doors facing into the courtyard from the dining room.

Lights in hallway above door 12 (left), 14 and 17/18.

Small refrigerator seen in reception area. Reception also has 4 computers.

Energy Consumption Data
Electricity

Interval Start
Date/Time

Net
Consumption
(kWh)

Demand
(kW)

Power
Factor
(%)

2016-04-01 0:00 17269.23 24 91.7
2016-05-01 0:00 16434.61 22.1 92.6
2016-06-01 0:00 16056.99 22.8 92.3
2016-07-01 0:00 15772.18 21.9 92
2016-08-01 0:00 13743.11 22 91.7
2016-09-01 0:00 14783.07 22.3 92.9
2016-10-01 0:00 18310.42 24.6 91.6
2016-11-01 0:00 16905.23 24.5 92.8
2016-12-01 0:00 14238.28 26.6 94.3
2017-01-01 0:00 18947.49 25.5 93.7
2017-02-01 0:00 15623.24 23.8 93.4
2017-03-01 0:00 17318.63 23.3 92.2
2017-04-01 0:00 16450.42 22.9 91.5
2017-05-01 0:00 15260.73 21.2 92.1
2017-06-01 0:00 14006.82 20.1 92.1
2017-07-01 0:00 15567.08 20.9 92.4
2017-08-01 0:00 15816.92 21.8 93
2017-09-01 0:00 15937.43 22.1 93
2017-10-01 0:00 16846.28 22.6 92.1
2017-11-01 0:00 15908.23 23.6 93.2
2017-12-01 0:00 18757.7 25.2 93.1
2018-01-01 0:00 17831.31 24 92.6
2018-02-01 0:00 15956.18 23.7 92.7
2018-03-01 0:00 16957.5 22.8 92
2018-04-01 0:00 15414.23 21.4 93.2
2018-05-01 0:00 6417.71 20.6 95

Natural Gas

Bill from date Bill to date
# of
days Billed GJ

Average
temperature

04/04/2018 03/05/2018 30 163.3 10
03/03/2018 03/04/2018 32 265.5 6
01/02/2018 02/03/2018 30 290.6 4
04/01/2018 31/01/2018 28 424.6 6
01/12/2017 03/01/2018 34 175 3
01/11/2017 30/11/2017 30 38.9 7
30/09/2017 31/10/2017 32 428.5 10
31/08/2017 29/09/2017 30 95.2 16
01/08/2017 30/08/2017 30 65.8 19
30/06/2017 31/07/2017 32 66.8 18
01/06/2017 29/06/2017 29 69.4 16
02/05/2017 31/05/2017 30 144.2 13
01/04/2017 01/05/2017 31 274.3 10
03/03/2017 31/03/2017 29 284.1 7
01/02/2017 02/03/2017 30 530.6 3
06/01/2017 31/01/2017 26 26.4 3
02/12/2016 05/01/2017 35 396.6 1
02/11/2016 01/12/2016 30 278.6 9
04/10/2016 01/11/2016 29 257.1 11
02/09/2016 03/10/2016 32 92.5 14
04/08/2016 01/09/2016 29 67.3 19
05/07/2016 03/08/2016 30 72.9 18
03/06/2016 04/07/2016 32 78.6 16
04/05/2016 02/06/2016 30 89.5 14
05/04/2016 03/05/2016 29 211.3 12

Information from Lookout Society

• Al Mitchel Place Description

Building Description
Photos
Energy Consumption Data
Electricity
Natural Gas
Information from Lookout Society

• AL Mitchel Place Floor Plan
• AMP – Roof Deficiencies Report – Trimstyle – 2017