"Bio to H2“ Dr. Ross Gazey, - PowerPoint Presentation

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"Bio to

H2“ Dr. Ross Gazey, Pure Energy Centre

The ‘Green Hydrogen enAbled

Zero Emissions suppLy (HAZEL) webinar series Dr. Ross Gazey – Pure Energy Centre‘Bio to H2’HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

The Pure Energy CentreIntegrated energy systemBio to H2Key Findings;

InnovationsCommunity BenefitWider ImplicationsOverviewHAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

The Pure Energy® Centre comprises a multi-disciplined team with extensive experience in clean energy technology integrationConcept development Systems designConstruction & Installation

Operation & Maintenance.Pure Energy® Centre

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

Pure Energy® Centre

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

We offer a ‘one-stop-shop’ for our customers From concept development through to implementationRenewable GenerationHydrogen Production

CompressionStorageDispensing.HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances Pure Energy® Centre

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

Pure Energy® Centre

Anaerobic Digestor

Water Supply

Electrolyser

H

2

O

2

Fish Processing and Public Waste

Grid Connection

Wind Turbine

Biogas CHP Engine

H

2

Transport

H

2

CHP

Salmon Hatchery

The BIOH2CHP system

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

Bio to H2

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

A modest ~30kW electrolyser powered by biogas via an integrated CHP can produce up to a maximum of 12kg of hydrogen per day.

At the Lower Heating Value (LHV) hydrogen contains around 33.3kWh/kg

At the Higher Heating Value (HHV) hydrogen contains around 39kWh/kg

In simple terms this is the equivalent circa 146MWh equivalent LHV and 171MWh equivalent HHV

Bio to H2

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

As a road fuel equivalent

, the total displaced diesel potential is 11.4T, equivalent to 146MWh (the LHV of H2).

Equates to roughly 2,994 Imperial (not US) Gallons of Diesel. (

approximately 13,611 Litres)

The average equivalent of driving almost 129,000 miles in your average UK Diesel car on 100% mineral diesel.

Bio to H2

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

when working at maximum capacity this has the potential to save 35.7T CO2e

/annually*.

it is suggested in literature that your average pine tree would, in the course of its life, absorb roughly 10 kilograms of CO2 per year.

Assuming the standard measurements of tree planting is about 1000 trees per hectare a hectare could absorb around 10 tons per year.

Therefore in unit measurement of equivalent trees the saving in diesel burn would be the equivalent of planting 3570 average pine trees, or in land mass the same as 3.57 hectares of tree plantation of your average pine tree.

*kgCO2e/kWh figures based on UK Government GHG Conversion Factors

Co2e is carbon dioxide equivalent saving.

Bio to H2

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

Key Findings

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

Diverting organic waste from landfill and reducing transport of organic waste off-island

Capturing ‘waste’ oxygen from the electrolysis process to create a new product: ‘green’ oxygen

Displacing kerosene and diesel consumption with renewable heat, and creating a new low carbon fuel: H

2

Producing methane from waste CO

2

and excess H

2

Managing on-site energy generation to minimise grid impacts.

Innovations

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

Help secure continued development of the waste energy industry in remote communitiesBetter handling of organic waste in remote communities increases local employment

Handling of oxygen and hydrogen through local distribution networks provides new local jobs (heat and power)

Develop future and new hydrogen supply chain that can support adoption of hydrogen vessels and road transport.

Benefits to local economy

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

The majority of marine fish farm sites are off grid, powered by diesel generators, and supplied by diesel powered work boats, consuming around 40 GWh/year

Hatchery sites have high levels of heat demand, c.11

GWh

/year

Fish waste from operations and processing has energy potential of c. 60

GWh

/year

Wider implications

info@pureenergycentre.com

HAZEL Webinar 5: Marketable hydrogen innovations - Innovation & entrepreneurship of innovation of Energy Carriers through academia & industry alliances

Thankyou for your time

‘Green

H

ydrogen

en

A

bled

Z

ero

E

missions

supp

L

y

(HAZEL) webinar series

Dr.

Ross Gazey – Pure Energy Centre

‘Bio to H2’