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Company profile

H2GO Power Ltd

H2GO Power | Hydrogen Energy Storage Technology

Our mission is to provide clean, reliable power from renewable sources that meets decarbonisation targets fast, bringing profitable social impact to millions across the world.

CRN
09139481
Founded
2014
Age
11

Overview

Legal name
H2GO POWER LTD
Region
London
Registered address
C/O FORVIS MAZARS LLP 30
OLD BAILEY
LONDON
EC4M 7AU
Insolvency history
No

Company events

Reference milestones and recent Companies House filing stream events.

9 events
31 Jan
2026

Accounts due

Accounts Due

Next accounts due date

17 Aug
2025

Confirmation statement due

Confirmation Due

Next confirmation statement due date

26 Nov
2024

Liquidation In Administration Result Creditors Meeting

Insolvency

AM07 | Transaction MzQ0NDU5Njg1NGFkaXF6a2N4 | Paper/PDF filed

Published 27 Nov 2024 11:08

06 Nov
2024

Liquidation In Administration Proposals

Insolvency

AM03 | Transaction MzQ0MTI5MjE3NmFkaXF6a2N4 | Paper/PDF filed

Published 07 Nov 2024 06:58

30 Aug
2024

Change Registered Office Address Company With Date Old Address New Address

Address

AD01 | Transaction MzQzMzI1OTMzMWFkaXF6a2N4 | Paper/PDF filed

Published 31 Aug 2024 07:00

30 Aug
2024

Liquidation In Administration Appointment Of Administrator

Insolvency

AM01 | Transaction MzQzMzI1OTI0MGFkaXF6a2N4 | Paper/PDF filed

Published 31 Aug 2024 07:00

03 Aug
2024

Confirmation statement filed

Confirmation

Last confirmation statement made up date

30 Apr
2024

Accounts filed

Accounts

Last accounts made up date

21 Jul
2014

Incorporated

Inception

Company registered at Companies House

Public funding

12 awards
First funded
2017
Funded years
2017, 2018, 2020, 2021, 2022, 2023, 2024
Age at first award
3 years

Projects

2024 EU-Funded Lead participant

H2Genx

1 Mar 2024 to 28 Feb 2026

Awarded
£2,154,513
Total cost £3,160,964

Renewable energy, including the most widely used solar and wind sources, has a variable and uncertain output.This causes huge amounts of energy to be wasted. The most widespread energy storage solution today is the Li-ion battery, which addresses short storage duration (up to 4h) and is costly at scale. Hydrogen is a promising alternative to store renewab...

2023 Collaborative R&D

HyNTS Hybrid Storage

1 Oct 2023 to 31 Mar 2024

Awarded
£0
Total cost £0
2023 Feasibility Studies

Hybrid Storage Systems for site safety and efficiency

3 Apr 2023 to 3 Jul 2023

Awarded
£49,970
Total cost £49,970
2023 Collaborative R&D Lead participant

Hy-MAP 2.0 - Hydrogen mapping in hydrogen storage materials

1 Apr 2023 to 30 Jun 2023

Awarded
£14,676
Total cost £14,676

The growing environmental challenges have made decarbonisation a global priority. Renewable energy is key for decarbonisation, but their broad deployment requires **sufficient energy storage technologies** to balance the mismatch of intermittent renewable supply with electricity demand. Towards this goal, hydrogen has been rightfully acknowledged as a hig...

2023 Feasibility Studies Lead participant

HyBunk

1 Jan 2023 to 31 Aug 2023

Awarded
£244,108
Total cost £348,725

Ports are a significant component of the UK economy, contributing annually to the UK economy £7.5B and supporting around 119,000 jobs across the country. Despite the anticipated deployment of alternative fuels at ports, their total electricity demand is to increase significantly by 2050\. The UK's Department for Transport estimates that total annual elect...

2022 Collaborative R&D Lead participant

Hy-MAP; Hydrogen Mapping in Metallic Alloys

1 Jan 2022 to 31 Mar 2022

Awarded
£15,491
Total cost £15,491

With increasing CO2 emissions and concerns over mass use of fossil fuels, the use of renewable sources of energy and carbon-free fuels is of critical importance for a transition to net-zero emissions and hydrogen represents a real alternative to fossil fuels. Hydrogen is notoriously difficult to store as conventional storage methods require extreme condit...

2021 Collaborative R&D Lead participant

HyStYRIAA 2.0 - Hydrogen Storage to Energise Robotics in Air Applications 2.0

1 Jan 2021 to 30 Jun 2022

Awarded
£217,417
Total cost £310,595

This project aims to develop a novel energy system that extracts clean electrical energy from low-pressure hydrogen carriers along with automation to realise the benefits of extended flight times (3x than typical Li-ion batteries) on existing UAVs. The project plan is to develop a medium-sized power system for a UAV (\\\>20Kg) and demonstrate a scalable t...

2020 Collaborative R&D Lead participant

HyAI - Hydrogen AI

1 Oct 2020 to 30 Jun 2021

Awarded
£176,357
Total cost £246,999

H2GO Power energy storage solutions are zero-emission end-to-end technologies with the principle of storing renewable energy in the form of Hydrogen. H2GO offers benefits over existing storage technologies (such as longer duration storage, longer lifetimes, safety with enhanced storage capacity at low-pressures). This project proposes 'making the hardware...

2020 Feasibility Studies Lead participant

Zero-Emission & Reliable Power for Hospitals in Sub-Saharan Africa (hZERPH)

1 Jun 2020 to 31 Mar 2021

Awarded
£75,000
Total cost £75,000

no public description

2020 Feasibility Studies Lead participant

Zero-Emission & Reliable Power for Hospitals in Sub-Saharan Africa (hZERPH)

1 Mar 2020 to 30 Jun 2021

Awarded
£208,144
Total cost £297,348

hZERPh is a business-led, industrial research project, demonstrating significant innovation in the area of clean energy generation, storage and delivery of reliable power in developing countries with main focus on Nigeria. It will focus on the development and subsequent demonstration of an innovative AI software operated modular Plug and Play energy stora...

2018 Collaborative R&D Lead participant

HyStERIAA- Hydrogen Storage to Energise Robotics In Air Applications

1 Jul 2018 to 31 Mar 2019

Awarded
£177,471
Total cost £253,530

Significant emissions reduction coupled with reliable energy supply can only be achieved though increasing the adoption of renewable energy production. Increased penetration of renewable energy will highlight the problem of renewable intermittency. In order to tackle this problem, a reliable energy storage solution is required to enable the sustainable su...

2018 Feasibility Studies

HYAPEREST- HYdrogen Ambient Pressure Electrochemical Reversible Energy STorage

1 Apr 2018 to 31 Oct 2019

Awarded
£69,962
Total cost £99,832

Ever increasing energy demands and decarbonisation efforts require substantial incorporation of renewable energy sources such as solar and wind. Their intermittency necessitates addition of significant capacity of energy storage capabilities for proper and uninterrupted grid operation that will result in saving of more than hundred billions dollars to the...

Product types

Collaborative R&D EU-Funded Feasibility Studies