Service: Electrical Engineering
Penguin Random House
Tenant Fit-out
One of the key challenges of this project was meeting a very aggressive renovation/fitout schedule. The client’s lease was expiring at their existing location, which meant we had to meet a pre-determined target in order to achieve their move-in date for their new facility at 320 Front Street.
This high-end office space totals 45,000 ft2 and occupies 2 ½ floors.
HH Angus’ lighting design included the selection of special fixtures. Our design considerations covered both dropped and decorative ceilings, as well as LEDs in shelving units, along with upgraded lighting controls.
We also designed a new mechanical cooling loop for a large IT room, as well as multiple UPSs.
SERVICES
Mechanical Engineering | Electrical Engineering | Lighting Design | Communications Design
PROJECT FEATURES
Size: 45,000 ft2 over 2 1/2 floors | Status: Completed: 2015
LOCATION
Toronto, Ontario
KEY SCOPE ELEMENTS
Lighting design considerations included dropped and decorative ceilings | Upgraded lighting controls | Added a new mechanical cooling loop for a large IT room and multiple UPS
Tyndale University College & Seminary
Mother House Renovations
This project centred on the renovation of an existing structure that dated from the late 1950s for new occupancy. The building was formerly home to a Catholic nunnery. Vatican approval was required to transfer the campus from Catholic to Protestant hands, and a key reason for the approval was Tyndale’s commitment to continue to protect the nunnery’s aesthetically significant chapel as “sacred space”.
HH Angus’ scope for this project included upgrades to major mechanical and electrical infrastructure, addition of a fire protection system, and life safety system upgrades. Existing vertical transportation systems were upgraded to meet current standards.
Upgrades to the mechanical infrastructure systems were designed to accommodate future capacity increases, and are expandable to suit planned renovations and additions in other areas of the building.
A chiller replacement was required as the first stage of the renovation. This was necessary due to the phase out of R-11 refrigerant, as well as the chiller being at life cycle end. The replacement was fast-tracked and equipment pre-purchased in order to meet the schedule.
The chilled water plant was provided with an optimization control package and integrated with cooling tower and circulating pumps variable speed drives for improved operational efficiency.
Among the challenges of this project was a short construction schedule. Access to the site was very limited, due to presence of occupants, which limited survey work. As well, the budget was firmly set, so creative solutions were required to ensure that the building would be ready for occupancy when the academic year began. These solutions included:
- Hybrid heating system utilizing existing steam and hot water generation
- Temporary power to permit continued occupancy during construction
- Pre-tendering all long lead components
- Phasing planning and upfront design for future building expansion and renovation
SERVICES
Mechanical Engineering | Electrical Engineering | Vertical Transportation Consultant
PROJECT FEATURES
Size: Mother House: approx. 286,540 ft2; Tyndale High School: approx. 83,680 ft2 | Status: Completed 2015
LOCATION
Toronto, Ontario
KEY SCOPE ELEMENTS
Upgrades to major mechanical and electrical infrastructure | Addition of fire protection (sprinkler) system & life safety system upgrades
Ensuring continued operations
The Administration wing of building remained occupied and fully operational during construction.
Rebate application assistance
HH Angus applied for incentives with Toronto Hydro on the Owner’s behalf. The project was eligible for a rebate from the Save-ON-Energy program.
— Photos courtesy of CS&P Architects
Gas Drive
Slave Lake Pulp 9 MWe Cogeneration Project
Waste-activated sludge is produced in vast amounts at pulp mills, and is generally sent to be incinerated or landfilled, or can be land applied. Any of these options represented a lost opportunity at the Slave Lake Pulp plant in Alberta. The sludge would instead be repurposed to serve as the main ingredient for anaerobic digestion—a reliable, local, ongoing source of renewable energy.
HH Angus designed a 3 X 3 MWe bio-gas fed cogeneration plant for Slave Lake Pulp, a division of West Fraser Mills. The renewable energy technology integrates energy-efficient anaerobic digestion, using the pulp sludge, into the plant’s existing wastewater treatment system. This allows the plant to generate a methane-rich biogas that produces electricity and heat for the pulping process.
Our scope included: engineering electrical power equipment to integrate from the owner’s 13.8kV switchboard into the electrical generation system distribution to connect the cogeneration equipment; electrical design for a new engineered building housing the cogeneration machines and balance of plant; affiliated balance of plant engine electrical support services, such as high and low temperature cooling, exhaust gas heat exchanger and fresh/waste oil, glycol makeup systems, etc.
HH Angus prepared a 13.8kV single line diagram for the electrical system, from the power generation modules through the switchboards, to the interface to the utility service and existing owner’s distribution system; plus preparation of a 600V & 120/208V single line diagram for the generator, building auxiliary and balance of plant services. We also designed protection and control systems, and connection arrangements including SCADA with AESO.
SERVICES
Electrical Engineering | Commissioning support
PROJECT FEATURES
Status: Completed 2015
LOCATION
West Fraser Mills, Alberta
KEY SCOPE ELEMENTS
Designed a 3 X 3 MWe bio-gas fed cogeneration plant | Detailed design of power equipment to integrate to utility and owner’s existing plant | Initiated protection and control system designs Including connection arrangements - SCADA with AESO
Proven protection
We provided a detailed short circuit analysis and co-ordination protection setting study to satisfy the owner that their system is fully protected.
Energy win-win
“This system will now allow us to actually take advantage of some of this lost energy, while also reducing our consumption.”*
Rod Albers, Manager of Energy ad Bio-Product Development, West Fraser Mills
LexisNexis
Office Fit-out
HH Angus was engaged to provide fitout services for LexisNexis’ commercial office renovation. The client is a global provider of information and technology solutions for legal and professional services customers.
A major focus of the project was the refresh of the base building lighting to brighten the space. HH Angus provided a new lighting design for three floors, along with a selection of luminaires. Photometric calculations were made to achieve the client’s desired lighting levels. Rezoning lighting circuits and low voltage lighting zones was also part of the lighting scope.
The project’s mechanical scope included mechanical heat pumps, fresh air supply and duct work.
SERVICES
Mechanical Engineering | Electrical Engineering | Communications Design
PROJECT FEATURES
Size: 40,000 ft2 | Status: Completed 2015
LOCATION
Toronto, Ontario
KEY SCOPE ELEMENTS
AV integration | Provided new lighting design for 3 floors | Photometric calculations | Low voltage lighting zones | Redistribution of mechanical heat pumps, fresh air supply and duct work
AV integration
The challenges we met on this project included meeting an aggressive schedule, and carrying out ongoing coordination with the client’s audiovisual vendor for a major integration of the AV system.
LED efficiency
The work included demolition of all existing lighting and T-bar ceilings, which were replaced with new T-bar and new, recessed LED lights.
— Photos courtesy of Intercede Design
Thunder Bay Regional Health Sciences Centre
Cogeneration Plant
The Thunder Bay Regional Health Sciences Centre required a new outdoor enclosed cogeneration machine to be integrated into the existing mechanical and electrical hospital systems to displace utility electricity and boiler production.
As prime consultant, some of the challenges we overcame on this project included: meeting the delivery deadline under a very tight schedule once the project was approved to proceed; working under the confines of space constraints; noise suppression requirements associated with working in an operating healthcare facility; and integration and use of low temperature water from cogeneration.
To address these challenges, HH Angus pre-tendered the equipment, which allowed for unit production while mechanical and electrical design continued. To address the issue of noise infiltration to the hospital, the unit noise suppression was specified to very strict levels, and these were successfully met.
Although low temperature heat is normally unused in this process and is displaced to the atmosphere, our design incorporated low temperature heat along with high temperature waste heat for use in the dearator make-up. This feature adds a level of long-term efficiency to the installation.
SERVICES
Prime Consultant | Mechanical Engineering | Electrical Engineering | Civil Engineering | Structural Engineering
PROJECT FEATURES
Size: 1.5 MW | Status: Completed 2015
LOCATION
Thunder Bay, Ontario
KEY SCOPE ELEMENTS
Integration of new outdoor cogeneration plant into existing hospital M&E systems | Aggressive delivery schedule | Mitigation of noise and space constraints
Meeting deadlines
Despite a very tight schedule, the project was completed on time and within budget.