Editing Enwave (section)

== Notable projects ==

===Deep Lake Water Cooling System===
{{main|Deep Lake Water Cooling System}}
Enwave's Deep Lake Water Cooling (DLWC) is a system that harnesses the cold temperature at the bottom of Lake Ontario to cool hospitals, data centers, educational campuses, government buildings, commercial and residential buildings. Some customers include [[Toronto-Dominion Centre]], [[Royal Bank Plaza]], [[RBC Centre]], [[Metro Toronto Convention Centre]] and [[Scotiabank Arena]].

It utilizes three large pipes have been run {{convert|5|km|mi|abbr=off}} into Lake Ontario, to a depth of 83 metres. The water at that depth is a constant 4&nbsp;°C, its temperature protected by a layer of water above it, called a thermocline. The water is piped to a filtration plant and then to a heat-transfer station on the lakeside. Here the chill is “transferred” to another closed loop, consisting of smaller pipes that supply the towers of the city's financial district. Built at a cost of C$230m ($200m) over four years, the system is run by the Enwave Energy Corporation.<ref name=Economist07>{{Cite news |title=A cool concept |newspaper=The Economist |url=https://www.economist.com/technology-quarterly/2007/04/24/a-cool-concept |date=April 24, 2007}}</ref>

The cooling system is a clean, renewable, and reliable energy source. Compared to traditional air-conditioning, Deep Lake Water Cooling reduces electricity use by 75%, and will eliminate 40,000 tonnes of carbon dioxide, the equivalent of taking 8,000 cars off the streets.<ref name="theglobeandmail.com">{{Cite news|title='Energy of the future' flows into downtown Toronto|url=https://www.theglobeandmail.com/news/national/energy-of-the-future-flows-into-downtown-toronto/article20434567/|access-date=2020-07-24}}</ref>

Enwave draws cold water ({{convert|4|°C|°F|abbr=on|disp=x|/|}}) from a depth of {{convert|83|m|ft|abbr=off}} below the surface of [[Lake Ontario]].<ref>{{Cite news|title=An answer for the heat? Cool clear water|url=https://www.theglobeandmail.com/report-on-business/an-answer-for-the-heat-cool-clear-water/article18167644/|access-date=2020-07-24}}</ref> Cold lake water is pumped through the source side of [[heat exchangers]] situated at Toronto's John Street Pumping Station while a glycol and water mixture is circulated through the load circuit of the heat exchanger, allowing for a net energy transfer from the water/glycol mixture to the lake water. The chiller glycol mixture is then circulated using pumps throughout fan-coil units installed in high-rise properties throughout the region served by Enwave in Downtown Toronto where is absorbs energy and repeats the cycle to provide cooling and dehumidification. This system is advantageous since it reduces, or even completely eradicates chiller usage during summer months and shoulder seasons, reducing energy usage, as well as minimizing the number of evaporative [[cooling towers]] from operating, which are susceptible to becoming breeding grounds for [[Legionella pneumophila]].

This system was officially launched on August 17, 2004, at Steam Whistle Brewing, one of Enwave's customers. In support of Deep Lake Water Cooling (DLWC), the launch was attended by actor and renewable energy activist [[Alec Baldwin]], Ontario Minister of Energy [[Dwight Duncan]], Canadian Minister of Human Resources and Skills Development Joe Volpe, and Toronto Deputy Mayor Sandra Bussin, among other business leaders and government officials. The launch coincided with the anniversary of the [[Northeast Blackout of 2003|2003 blackout]].<ref name="theglobeandmail.com"/>

=== DLWC Expansion ===
In 2019, Enwave announced a C$100 million system expansion with C$10 million in federal funding from the Ministry of Environment and Climate Change's Low Carbon Economy Challenge.<ref>{{Cite web|last=Canada|first=Environment and Climate Change|date=2019-01-10|title=Government of Canada supporting Canadian innovation through the Low Carbon Economy Challenge|url=https://www.canada.ca/en/environment-climate-change/news/2019/01/government-of-canada-supporting-canadian-innovation-through-the-low-carbon-economy-challenge.html|access-date=2020-07-24|website=gcnws}}</ref>

The expansion of the DLWC supply could reduce demand on the electricity grid during peak times by up to 0.5&nbsp;kW per ton of cooling load delivered, resulting in up to 70% peak demand savings in electricity compared to a mechanical chiller plant. The expansion will increase the capacity of the District Heat Recovery System, which produces up to 93% less carbon emissions compared to traditional heating technology.<ref>{{Cite web|date=2020-01-31|title=Deep Lake Water Cooling Supply Expansion|url=https://www.toronto.ca/community-people/get-involved/public-consultations/infrastructure-projects/deep-lake-water-cooling-expansion-study/|access-date=2020-07-24|website=City of Toronto|language=en-CA}}</ref>

=== London CHP II ===
Enwave's London Energy Plant has {{convert|6|mi|km|abbr=off}} of steam pipes, {{convert|1.85|mi|km|abbr=off}} of chilled water pipes and has recently invested 50 million dollars to supply power to the provincial electricity grid through London's local grid.

In 2019, the Province of Ontario funded the system to expand and include an additional combined heat and power (CHP) system, 17 MW gas turbine, 4 MW condensing steam turbine, 1,451 metric tons of electric chillers. London Energy Plant now serves 60 customers, including St. Joseph's Health Care London.<ref>{{Cite news |first=Hank |last=Daniszewski |title=District Energy plant shifts gears on expansion |url=https://lfpress.com/news/local-news/district-energy-plant-shifts-gears-on-expansion |date=August 12, 2018 |work=London Free Press |language=en-CA}}</ref>

=== The Well ===
The Well is a mixed-use development with over {{convert|3|e6sqft|e6m2|abbr=unit}} of retail, office and residential space. Enwave designed and installed a new state-of-the-art thermal storage facility underneath The Well,<ref>{{Cite news|last=Pittis|first=Don|date=January 27, 2020|title=Giant Canadian construction project incorporates low carbon heating and cooling: Don Pittis|work=CBC|url=https://www.cbc.ca/news/business/climate-heat-cooling-1.5437701}}</ref> consisting of a large temperature-controlled tank. The tank is fed by the DLWC system and has the capacity to hold {{convert|2|e6USgal|e6l|abbr=unit}} of water.<ref>{{Cite web|date=2020-03-05|title=A new downtown neighbourhood rises at The Well|url=https://www.thestar.com/life/homes/2020/03/05/a-new-downtown-neighbourhood-rises-at-the-well.html|access-date=2020-07-24|website=thestar.com|language=en}}</ref> This system is a [[Thermal_energy_storage|thermal battery]] which can providing heating in the winter and cooling in the summer using water pumps and [[heat pump]]s, in conjunction with Enwave's Toronto district heating network and Deep Lake Water Cooling System. The Well adjusts temperature at night during [[Peak_demand|off-peak hours]], reducing both [[Energy_demand_management|strain on the electricity grid]] and spent energy costs. The system is efficient, resilient, and supplies [[Carbon_accounting|low-carbon]] heating and cooling to an additional {{convert|17|e6sqft|e6m2|abbr=unit}} of space{{Citation needed|reason=Where does the additional 17 million sq.ft. figure come from?|date=April 2025}}.

=== Prince Edward Island ===
With Federal support, Enwave is pursuing a project on Prince Edward Island which will divert an additional 23,000 tonnes of waste from landfill to generate energy, thus reducing harmful [[methane emissions]].<ref>{{Cite news|last=Chung|first=Emily|date=December 3, 2019|title=Solar? Geothermal? Garbage? 6 climate-friendly ways to heat and cool buildings|work=CBC|url=https://www.cbc.ca/news/technology/district-energy-examples-1.5379125}}</ref> The federal government is contributing $3.5 million to upgrade and expand a 35-year-old waste-to-energy system in Charlottetown.<ref>{{Cite news|last=Davis|first=Tony|date=March 11, 2019|title=Upgrade for Island waste-to-energy system aims to curb oil consumption, increase energy production|work=CBC|url=https://www.cbc.ca/news/canada/prince-edward-island/energy-federal-funding-1.5051460#:~:text=2-,The%20federal%20government%20is%20contributing%20%243.5%20million%20to%20upgrade%20and,thermal%20energy%20from%20burned%20waste.}}</ref> The upgrade will include a larger furnace, the addition of a heat recovery boiler and air pollution controls.

Through the life of the project it could, on average, reduce carbon dioxide emissions by 75,000 tonnes a year.

=== New Orleans ===
In 2005, hurricanes [[Hurricane Katrina|Katrina]] and [[Hurricane Rita|Rita]] devastated homes, businesses, and critical infrastructure in New Orleans. [[Electrical substation]]s were flooded and the city lost power for several weeks. Throughout the disaster, Enwave's district energy plant, maintained service to Louisiana's largest health care and medical research center. As the only functioning facility with power and cooling, it also served as a hub for FEMA workers. Louisiana State University subsequently commissioned Enwave to design, build and operate a future-proof system with the same level of reliability and redundancy to provide critical medical services through a disaster. The plant is designed to be failproof: built to withstand hurricane-force winds and a 20-foot storm surge, with all critical equipment located 20 feet above grade. It also features emergency backup generation and an innovative 55,000 ton-hour “ice battery” to store energy, allowing the plant to operate for seven full days off-grid in the event of a disaster.<ref>{{Cite web|last=Innovasium|title=Case Studies: Louisiana State University gains greater reliability, resiliency in New Orleans|url=http://www.enwave.com/case-studies/louisiana-state-university-gains-greater-reliability-resiliency-in-new-orleans/|access-date=2020-07-27|website=www.enwave.com|language=en-CA}}</ref> After hurricane Katrina, Enwave expanded its service in New Orleans beyond the medical district. Enwave constructed a new steam plant in 2014 to serve an additional 22 buildings in the business core. Its three 70,000-lb/hr natural gasfired boilers produce steam for distribution to 22 buildings totaling 4.1 million sq ft for space heating, domestic hot water, laundry and sterilization use.<ref>{{Cite web|title=From recovery to resilience|url=http://mobileservices.texterity.com/districtenergy/2019q1/MobilePagedArticle.action?articleId=1521776|access-date=2020-07-27|website=mobileservices.texterity.com|language=en}}</ref> Construction of the $28 million steam plant was completed on budget and two months ahead of schedule. The plant won the DBIA National Award of Merit and the ENR Best Projects for Texas and Louisiana Award of Merit.<ref>{{Cite web|title=KEEPING THE POWER ON DURING FUTURE DISASTERS|url=https://cdn2.hubspot.net/hubfs/477837/Collateral/Case%20Studies/Keeping-The-Power-On-During-Future-Disasters-Case-Study-burns-mcdonnell-04195-view.pdf|website=Burns McDonnell}}</ref>