This document discusses URH2's total solution for fuel cells and renewable hydrogen generation. It describes URH2's proprietary metal hydride storage technology using low-pressure canisters, which provides cost advantages over high-pressure hydrogen storage. The document also outlines URH2's bio-reforming process that produces hydrogen from renewable fuels like biogas at costs below $5/kg, providing a renewable alternative to natural gas steam methane reforming. Finally, it mentions URH2's backup fuel cell power systems that can run on the hydride hydrogen canisters and work with the bio-reforming systems to provide packaged power solutions.
Designing a Drop-in Hydrogen Fueling StationHEFContest
Washington State University - Grand Prize Winner
2014 Hydrogen Student Design Contest
Presentation at the Long Beach Convention Center, Long Beach, CA on May 8, 2014
When you have excess renewable power - you are obliged to be able to store and reuse this power at a later stage. This is now available using a hydrogen battery - that can easily store several MWh of energy - that can be used to stabilize the grid - or simply to store when the feed-in tarifs are low - and the release when the feed-in tarifs are high. The application are numerous - and the technology is here today.
Six startups born out of Lawrence Livermore National Laboratory technologies made presentations at a recent entrepreneurial event to attract investors.
The companies -- which have licensed technologies in biotech, renewable energy, sensors, infrared imaging and health care -- showcased their capabilities at the Entrepreneurs-in-Readiness (EIR) event at the Livermore Valley Open Campus' High Performance Computing Innovation Center.
The event was part of an EIR program developed by the Lab's Industrial Partnerships Office (IPO) to connect nascent companies with entrepreneurs and investors. The idea is to engage a diverse group of entrepreneurs and industry experts from Silicon Valley to help nurture promising new early stage Lab technology companies toward commercialization.
ipo.llnl.gov
Six startups born out of Lawrence Livermore National Laboratory technologies made presentations at a recent entrepreneurial event to attract investors.
The companies -- which have licensed technologies in biotech, renewable energy, sensors, infrared imaging and health care -- showcased their capabilities at the Entrepreneurs-in-Readiness (EIR) event at the Livermore Valley Open Campus' High Performance Computing Innovation Center.
The event was part of an EIR program developed by the Lab's Industrial Partnerships Office (IPO) to connect nascent companies with entrepreneurs and investors. The idea is to engage a diverse group of entrepreneurs and industry experts from Silicon Valley to help nurture promising new early stage Lab technology companies toward commercialization.
ipo.llnl.gov
Designing a Drop-in Hydrogen Fueling StationHEFContest
Washington State University - Grand Prize Winner
2014 Hydrogen Student Design Contest
Presentation at the Long Beach Convention Center, Long Beach, CA on May 8, 2014
When you have excess renewable power - you are obliged to be able to store and reuse this power at a later stage. This is now available using a hydrogen battery - that can easily store several MWh of energy - that can be used to stabilize the grid - or simply to store when the feed-in tarifs are low - and the release when the feed-in tarifs are high. The application are numerous - and the technology is here today.
Six startups born out of Lawrence Livermore National Laboratory technologies made presentations at a recent entrepreneurial event to attract investors.
The companies -- which have licensed technologies in biotech, renewable energy, sensors, infrared imaging and health care -- showcased their capabilities at the Entrepreneurs-in-Readiness (EIR) event at the Livermore Valley Open Campus' High Performance Computing Innovation Center.
The event was part of an EIR program developed by the Lab's Industrial Partnerships Office (IPO) to connect nascent companies with entrepreneurs and investors. The idea is to engage a diverse group of entrepreneurs and industry experts from Silicon Valley to help nurture promising new early stage Lab technology companies toward commercialization.
ipo.llnl.gov
Six startups born out of Lawrence Livermore National Laboratory technologies made presentations at a recent entrepreneurial event to attract investors.
The companies -- which have licensed technologies in biotech, renewable energy, sensors, infrared imaging and health care -- showcased their capabilities at the Entrepreneurs-in-Readiness (EIR) event at the Livermore Valley Open Campus' High Performance Computing Innovation Center.
The event was part of an EIR program developed by the Lab's Industrial Partnerships Office (IPO) to connect nascent companies with entrepreneurs and investors. The idea is to engage a diverse group of entrepreneurs and industry experts from Silicon Valley to help nurture promising new early stage Lab technology companies toward commercialization.
ipo.llnl.gov
Hurley Palmer Flatt Client Services Director, Dr David Telford, discusses the AECC Energy Centre project and how
it showcases the latest in renewable technologies. Technical Board Director, Wyn Turnbull, advises on the real difference between resilience classifications, Tier III and Tier IV, and how to apply these using a more holistic approach.
Finally, Executive Director Adrian Gray comments on the issue of shorter office leases and how they have directly
affected designing for flexible spaces. Also discussed is the UK’s Energy Savings Opportunity Scheme (ESOS) is a mandatory energy assessment and energy saving identification scheme for large undertakings (and their corporate groups). The scheme applies throughout the UK.
Cogeneration and On-Site Utility (PPA): Definition and BenefitsBobby Green
What is Cogeneration and why should you invest in it? In this presentation, GREENCROWN Energy defines Cogeneration and discusses its many benefits for your organization. How can this help your company? Read on for more information.
Additionally, this presentation contains information on Power Purchase Agreement (PPA)/On-Site Utility.
This presentation outlines the key considerations necessary for selecting appropriately sized CHPWH systems. It also showcases Ecotope's new Ecosizer tool.
Combined Heat and Power (CHP) generation. The use of industrial power and heat, resulting into high efficiency of the industrial unit and high profits. Reliability on energy provider is reduced.
Combined Heat and Power is the simultaneous production of
electricity and heat using a single fuel such as natural gas. The heat produced from the electricity generation process is captured and used to produce steam or hot water that can then be used for industrial and commercial heating or cooling purposes, such as district energy systems. The dual output of CHP facility can make more efficient use of fuel than two separate facilities that each just produce just heat or electricity. Consequently a CHP facility can provide the same energy services with lower greenhouse gas emissions.
Gasification
Big-Picture
Development Drivers
Gasification-Based Energy Conversion Systems
Commercial IGCC Plants in the U.S.
Active
Under Construction
No Longer Operating
IGCC Technology in Early Commercialization
Coal/Petcoke-Based U.S. IGCC Plants
Operational Performance
Worldwide Gasification Database
Hurley Palmer Flatt Client Services Director, Dr David Telford, discusses the AECC Energy Centre project and how
it showcases the latest in renewable technologies. Technical Board Director, Wyn Turnbull, advises on the real difference between resilience classifications, Tier III and Tier IV, and how to apply these using a more holistic approach.
Finally, Executive Director Adrian Gray comments on the issue of shorter office leases and how they have directly
affected designing for flexible spaces. Also discussed is the UK’s Energy Savings Opportunity Scheme (ESOS) is a mandatory energy assessment and energy saving identification scheme for large undertakings (and their corporate groups). The scheme applies throughout the UK.
Cogeneration and On-Site Utility (PPA): Definition and BenefitsBobby Green
What is Cogeneration and why should you invest in it? In this presentation, GREENCROWN Energy defines Cogeneration and discusses its many benefits for your organization. How can this help your company? Read on for more information.
Additionally, this presentation contains information on Power Purchase Agreement (PPA)/On-Site Utility.
This presentation outlines the key considerations necessary for selecting appropriately sized CHPWH systems. It also showcases Ecotope's new Ecosizer tool.
Combined Heat and Power (CHP) generation. The use of industrial power and heat, resulting into high efficiency of the industrial unit and high profits. Reliability on energy provider is reduced.
Combined Heat and Power is the simultaneous production of
electricity and heat using a single fuel such as natural gas. The heat produced from the electricity generation process is captured and used to produce steam or hot water that can then be used for industrial and commercial heating or cooling purposes, such as district energy systems. The dual output of CHP facility can make more efficient use of fuel than two separate facilities that each just produce just heat or electricity. Consequently a CHP facility can provide the same energy services with lower greenhouse gas emissions.
Gasification
Big-Picture
Development Drivers
Gasification-Based Energy Conversion Systems
Commercial IGCC Plants in the U.S.
Active
Under Construction
No Longer Operating
IGCC Technology in Early Commercialization
Coal/Petcoke-Based U.S. IGCC Plants
Operational Performance
Worldwide Gasification Database
1839 - Sir William Grove, first electrochemical H2/O2
reaction to generate energy
• 1950s - GE developed the solid-ion exchange H2 fuel cell
used by NASA
• 1960s- GE produced the fuel cell-based electrical power
system for NASA Gemini and Apollo space capsules
• 1960s other fuel cells discovered – phosphoric acid, SOFC,
molten carbonate
• 1970s – Vehicle manufacturers began to experiment FCEV.
• 1990 – The California Air Resource Board introduced the
Zero Emission Vehicle (ZEV) Mandate.
• 2000 – Fuel cell buses were deployed as part of the
HyFleet/CUTE project
• 2007 – fuel cell started to be sold commercially as APU
• 2008 – Honda begins leasing the FCX fuel cell electric
vehicle.
• 2009 – Large scale of residential CHP programme in Japan.
this is the representation of hydrogen fuel. In this presentation we showed how hydrogen is useful for future consumption of fuel. We know that in the future the non-renewable sources of energy will be extincted so we have to concentrate on conventional sources of energy like solar energy energy, nuclear energy, hydrogen fuel. Because hydrogen is highly combustible and produce large of energy so we consider to use hydrogen fuel in future aspect
In this world of concerns regarding depletion of fossil fuels, pollution control and other factors leading to threat of man kind survival a way of producing biodiesel from algae which can be a source of alternative fuel. Lots of methods and sources being used for producing biodiesel but from algae one can produce high amount of biodiesel depending on the type of species or strain selected and this way this is a viable and feasible method to produce biodiesel.....
A variety of fuels can be made from biomassi resources including the liquid fuels ethanol, methanol, biodiesel, Fischer-Tropsch diesel, and gaseous fuels such as hydrogen and methane. Biofuels research and development is composed of three main areas: producing the fuels, applications and uses of the fuels, and distribution infrastructure.
Biofuels are primarily used to fuel vehicles, but can also fuel engines or fuel cells for electricity generation. For information about the use of biofuels in vehicles, see the Alternative Fuel Vehicle page under Vehicles. See the Vehicles page for information about the biofuels distribution infrastructure. See the Hydrogen and Fuel Cells page for more information about hydrogen as a fuel.
HNO International is a green hydrogen systems design, integration and product development company.
Our mission is to provide cost-effective, modular, scalable systems that produce, store, and dispense green and clean hydrogen to support the implementation of a global hydrogen energy infrastructure.
We support existing and emerging hydrogen markets, including regional hydrogen production, hydrogen off-take, logistics transportation refueling, and engine maintenance.
The CHRS provides a compact, dependable system delivering hydrogen fuel to quickly scale and support hydrogen fleets and infrastructure.
Solution of the problems associated with the development of safe and environmentally clean power industry.
Research in the field of energy conservation, chemical power generation, raising the efficiency of utilization of fuel, and utilization of renewable sources of energy.
H2 Development Corp., LLC. MW Class Green H2 to HVAC and MW capable on-site ...Jack Mosel
Inexhaustible GREEN Hydrogen Production and MW Scale Prime Power for HVAC / MW Scale On-Site (Green Hydrogen Fueled) Prime Power from Micro-Turbine produced Energy.
URH2 Metal Hydride Low Pressure Fuel Cells and Bio Reforming 4
1. 1
3010
LBJ
Dallas,
Texas
75234-‐
214.796.4033
–r.gwin@urh2.com
Metal
Hydride
Low
Pressure
Fuel
Cells
and
Bio
Reforming
URH2
Total
Solution
Fuel
Cells
and
Renewable
H2
https://www.youtube.com/watch?v=rcUg_u0YkDA&feature=youtu.be
2. 2
Canister
Charger
H2
Hydride
Canisters
“The System” Hydrogen Generation & Dispensing
Industrial Hydrogen, Fossil fuel Sourced,
High Cost
H2
Natural Gas Hydrogen
Renewable. Simple. Delivered.
Proprietary Hydride Storage
Current Market Choices
Onsite Generation, Fossil Fuel Sourced,
High Cost – Unwanted new business unit
H2Waste Biogas Hydrogen
URH2 Solution
3. 3
Cost Advantage:
Storage
pressure
of
less
than
150
psi
compared
to
5000psi
high-‐
pressure
systems.
The
cylinder
is
designed
to
meet
ISO
and
US
DOT
standards.
Solves
the
problem
of
high-‐pressure
equipment
cost.
The
hydride
canister
system
has
been
successfully
launched
in
Europe
and
Asia
in
scooter
programs.
https://www.youtube.com/watch?v=RRUWjXVUlLc.
The
canister,
and
system
technology
has
been
in
production
for
over
a
decade
with
350,000
kilometers
on
scooters,
CE
and
ISO
901
CE
certified.
Less
Expensive
Infrastructure
-‐Lower
Annual
Cost
URH2%:%Fuel%Cells%-%Significantly%Lower%Cost%
4. 4
Value
Proposition
Bio-‐Reformed
H2
below
$5.00
a
kg:
5. 5
Bio
Reforming
Hydrogen
Hydride
-‐Renewable
Hydrogen:
Hydride
SOFC
Backup
Fuel
Cell
Bio
Reformer
Prototype
Bio
Reforming
addresses
the
four
drawbacks
of
the
NG
SMR
process
and
offers
the
following
key
advantages:
• Conversion
of
renewable
fuels,
liquid
phase
reformation,
low-‐temperature
operation
8 | Fuel Cell Technologies Office eere.energy.gov
The Biogas-To-Energy Process
The Biogas-to-Energy Process
The “New” Business Case: Using biogas to provide both
electric power and/or heat and transportation fuel
Source: US DOE 1/28/2014
6. 6
• Elimination
of
water
gas
shift,
pure
H2
gas
creation
and
carbon
dioxide
at
any
scale
A
doubling
of
the
world’s
energy
consumption
over
the
next
50
years
will
require
significant
changes
in
the
way
we
produce,
distribute,
store,
and
use
energy.
A
crucial
step
in
this
process
will
be
reducing
our
dependency
on
carbon-‐based
fossil
fuels.
• No
need
for
additional
H2
purification
processing
steps
• No
Gas
Swing
Absorption
[PSA]
are
required
• Low
cost
of
hydrogen
production
• Scalable
up
or
down
or
down
to
size
is
appropriate
for
localize
production
[eliminates
expensive
distribution]
• Low
temperature
reaction
makes
materials
of
construction
less
expensive
resulting
in
smaller
overall
size
and
expense
Back
up
Power
Fuel
Cell
Power
-‐:
[Rugged-‐Reliable
-‐Intelligent]
Works
in
conjunction
the
Hydrogen
Bio
Fuel
Reformer
System
A
total
“Packaged
Power
Solution”
3
in
1
Application:
• Power
Generation
• Power
Conditioning
• Emergency
Backup
• Hydride
Hydrogen
Fuel
Canisters
• ETI
metal
hydride
fuel
cells
have
been
demonstrated
up
to
5,000
W
• Integrated
UPS,
Fuel
Cells
&
Power
System
Control
The
Fuel
Cell
Power
Pl
features
global
outputs
(120/220
VAC,
50,
60
or
400
Hz:
12,
24,
48,
72
or
125
VDC)
allowing
it
to
be
deployed
anywhere
in
the
world
and
used
with
any
electronic
equipment.
Additional
hydrogen
fuel
canisters
can
provide
several
hours
to
days
of
continuous
operation.
Increasing
demand
for
extended
runtime
backup
power
Higher
power
10,000
W
versions
are
in
the
works
Metal
hydride
fuel
cells
can
provide
cost
and
performance
advantages
for
extended
runtime
backup
power
Reduced
CO2
footprint