H2Tech Market Data 2024 - 12

TABLE 3. Notable H2
Province
Alberta
Alberta
Alberta
Alberta
Alberta
Alberta
Alberta
Alberta
British Columbia
British Columbia
British Columbia
British Columbia
British Columbia
Newfoundland
and Labrador
Newfoundland
and Labrador
Newfoundland
and Labrador
Newfoundland
and Labrador
Newfoundland
and Labrador
Newfoundland
and Labrador
Project
projects and initiatives in Canada. Note: This is not an exhaustive list
Developers
Ethylene and derivatives complex
Blue ammonia facility/supply chain
Blue H2/methanol complex
H2 production and liquefaction facility
Low-carbon ammonia/methanol facility
Crossfield H2
Blue H2 plant
Low-carbon ammonia value chain
Tumbler Ridge methanol project
Meager Creek geothermal project
Vancouver green H2 plant
McLeod Lake Indian Band H2 plant
Hydra's Prince George H2
fueling station
Project Nujioqonik
Gulf Island green H2/ammonia facility
production hub
Dow
Pembina Pipeline, Marubeni
Northern Petrochemical Corp.
Air Products
Itochu, Petronas
TC Energy
H2SX, Altima Resources Ltd.
Hydrogen Canada Corp.
Renewable Hydrogen
Canada Corp. (RH2C)
MCDC
HTEC
McLeod Lake Indian
Band, Mitsubishi Power
Hydra Energy
World Energy
FFI, Innu Nation
Location
Scope
Fort Saskatchewan
Fort Saskatchewan
Grand Prairie
Edmonton
Edmonton
Crossfield
Alberta
Fort Saskatchewan
Tumbler Ridge
Garibaldi Volcanic Belt
Vancouver
Kerry Lake Indian Reserve
Prince George
Bay St. George
Gulf Island
The project will convert offgas into H2 as a clean fuel to be used in ethylene
production.
The project includes a 185,000-tpy blue H2 plant. The H2
will be converted into
blue ammonia and transported via rail to Canada's west coast where it will be
exported to Japan.
The $2.5-B facility will produce 200 tpy of blue H2/methanol once fully operational.
The $1.2-B complex will produce 1,500 tpd of low-carbon H2
to Imperial Oil's renewable diesel facility under development in Strathcona.
The JV plans to invest approximately $1.3 B to produce 1 MMtpy of low-carbon
ammonia/methanol. Operations are scheduled to begin in 2027.
An FID on the 60-tpd plant is expected to be made by the end of 2023. If built,
the facility's capacity can be increased to 150 tpd.
The facility will convert natural gas from basins in Alberta and British Columbia
into blue H2
.
The plant will produce 1 MMtpy of low-carbon ammonia that will be exported to
South Korea and other Asian nations.
The facility will produce a total of 1.75 MMtpy of low-/zero-carbon products:
170,000 tpy of green H2
, 1.58 MMtpy of blue H2 and blue/green methanol.
This facility will convert geothermal power into green H2
The plant will capture, purify and process H2
chlorate factory. The produced H2
The $5-B project will produce both green and blue H2
into ammonia and exported to Asian markets.
H2 refueling station.
The $12-B project includes a wind farm and a plant to produce 250,000 tpy
of green H2
, which will be converted into 1.2 MMtpy of green ammonia.
The multi-billion-dollar project includes the construction of a green H2
plant
to produce 700,000 tpy-900,000 tpy of green ammonia. The facility also includes
a liquid ammonia export terminal. At the time of this publication, the project
was conducting a feasibility study.
Come by Chance refinery H2
Placentia Bay green H2
ammonia production plant
/
/
Port of Argentia green H2
ammonia production plant
Project L'luiknek
project
Braya Renewable Fuels
Brookfield Renewable Partners
Pattern Energy
Red Earth Energy
Come by Chance
Placentia Bay
Port of Argentia
Trinity Bay
The project envisions running the biofuels plant on green H2
will also produce green H2 by 2027 and begin exports of it in 2028.
The nearly $1.5-B plant will produce green H2
by 2030. The facility
from wind power, which will be
converted into up to 200,000 tpy of green ammonia to be exported.
The two-phase project's cost is nearly $5.5 B. Phase 1 includes the production
of 400 tpd of green ammonia and 80 tpd of green H2
.
The project's first stage plans to produce 1.1 GW of wind energy, 125 tpd of green
H2
and 670 tpd of green ammonia, tripling this production by the end of Stage 3.
.
from the adjacent ERCO sodium
will be used in H2 fueling stations.
, which will be converted
The refueling station will produce up to 3,250 kg/d of H2
to fuel H2
and use that product
-powered vehicles. Once operational, it will be the world's largest
, which will be supplied
12
MARKET DATA 2024
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H2Tech Market Data 2024

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