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Gas Recovery & Recycle Limited

GR2L Gas Recycling Systems

Gas Recovery & Recycle Limited is a UK company with status active founded in 2008 based in South East England.

CRN
06516105
Founded
2008
Age
18

Overview

Legal name
GAS RECOVERY & RECYCLE LIMITED
Region
South East England
Registered address
MILL HOUSE
126 HIGH STREET
STEYNING
WEST SUSSEX
BN44 3RD
Insolvency history
No

Company events

Reference milestones and recent Companies House filing stream events.

6 events
13 Mar
2027

Confirmation statement due

Confirmation Due

Next confirmation statement due date

31 Dec
2026

Accounts due

Accounts Due

Next accounts due date

27 Feb
2026

Confirmation statement filed

Confirmation

Last confirmation statement made up date

31 Mar
2025

Accounts filed

Accounts

Last accounts made up date

20 Feb
2025

Accounts With Accounts Type Total Exemption Full

Accounts PDF pending

AA | Transaction MzQ1NTgwOTg1NmFkaXF6a2N4 | Paper/PDF filed

Published 21 Feb 2025 07:16

27 Feb
2008

Incorporated

Inception

Company registered at Companies House

Public funding

3 awards
First funded
2015
Funded years
2015, 2019, 2021
Age at first award
7 years

Projects

2021 Feasibility Studies

Industrial Argon Process Gas Recovery in Aerospace Industry

1 Aug 2021 to 31 Oct 2022

Awarded
£22,819
Total cost £32,598

Turbine Surface Technologies (TST) is a Joint Venture between Rolls-Royce and Chromalloy. Operating in the aerospace sector, TST specialises in advanced thermal protective coatings in the hot section of gas turbines. The application of these advanced coatings typically requires high temperature, inert environments, which are typically energy-intensive and...

2019 Collaborative R&D Lead participant

Nitro0

1 Apr 2019 to 31 Dec 2020

Awarded
£172,756
Total cost £246,795

"Argon is a by-product of large scale air separation mainly for production of steel. It is used, in increasing volumes, in many high technology applications to ensure an inert atmosphere around/within a processing environment, for example, in the production of Silicon Ingots for Photovoltaics and Semiconductor devices, 3D printing of Metal Components, Hea...

2015 Feasibility Studies Lead participant

ORACLE: Odorant RemovAl by Chemical Looping dEsulphurisation

1 Nov 2015 to 31 Oct 2016

Awarded
£23,756
Total cost £33,937

Efficient distributed electricity generation using stationary fuel cells is recognised one option to address the energy trilemma, by improving the security of supply and reducing both CO2 and local emissions in a cost effective way. The ORACLE project aims to establish the technical and commercial feasibilty of novel concept to remove the sulphur containi...

Product types

Collaborative R&D Feasibility Studies