Company profile
B.P.P. Technical Services Limited
Home - BPP-TECH
B.P.P. Technical Services Limited is a UK company with status active founded in 1989 based in East of England.
Corporate ownership
Updated 06 Jun 2026 16:52
Company events
Reference milestones and recent Companies House filing stream events.
Confirmation statement due
Confirmation DueNext confirmation statement due date
Accounts due
Accounts DueNext accounts due date
Confirmation statement filed
ConfirmationLast confirmation statement made up date
Accounts filed
AccountsLast accounts made up date
Capital Statement Capital Company With Date Currency Figure
CapitalSH19 | Transaction MzQ1NjMwNjYyOGFkaXF6a2N4 | Paper/PDF filed
Published 26 Feb 2025 05:58
Legacy
CapitalSH20 | Transaction MzQ1NjMwNjk3MGFkaXF6a2N4 | Paper/PDF filed
Published 26 Feb 2025 05:53
Resolution
ResolutionRESOLUTIONS | Transaction WURYM1hLODFhZGlxemtjeA | Paper/PDF filed
Published 26 Feb 2025 05:52
Legacy
InsolvencyCAP-SS | Transaction MzQ1NjMwNjk2N2FkaXF6a2N4 | Paper/PDF filed
Published 26 Feb 2025 05:51
Accounts With Accounts Type Total Exemption Full
Accounts AnalysedAA | Transaction MzQ0MjAyMDA1N2FkaXF6a2N4
Published 05 Nov 2024 10:28
Incorporated
InceptionCompany registered at Companies House
Public funding
Projects
Solar-hydrogen microgrid for clean electricity, fresh water and oxygen supply to hospital facilities and surrounding community in Kikori District, Papua New Guinea
1 Apr 2024 to 31 Mar 2025
This project brings together BPP-TECH and FutureValue to develop a high-level design of a mini-grid solar-hydrogen system with clean water and oxygen production for a hospital facility in the Kikori District of PNG, servicing a remote population of 15,000 people. BPP-TECH will provide the technical expertise for the mini-grid solution, with FutureValue an...
Design and Techno-economic assessment of an onboard carbon capture utilisation and sequestration (CCUS) system for LNG-powered vessels along an optimum blue LNG corridor to reduce port GHG emissions in Singapore
1 Nov 2023 to 31 Oct 2025
This project aims to reduce greenhouse gas (GHG) emissions in the maritime industry by developing a carbon capture, utilisation, and sequestration (CCUS) system for LNG-powered vessels. In 2018, the International Maritime Organization (IMO) reported shipping emissions contributed nearly 3% of global GHG emissions, a figure that is projected to explode as ...
Solar-hydrogen microgrid with dedicated fresh-water production for Bandjoun, Cameroon
1 Mar 2023 to 29 Feb 2024
Increasing concerns about climate change, including desertification, requires the development of accessible clean energy solutions for the world's least developed regions. The conversion of the large resource of solar energy in such regions into clean Hydrogen (H2) fuel and fresh water, offers an effective solution. This has a significant impact on gender...
Development of a novel Industrial Air Sanitiser (IAS), to significantly reduce incidence of workers from passing on illnesses (including but not limited to COVID-19) and improve indoor air quality
1 Jul 2021 to 31 Dec 2022
BPP-Tech brings over 37 years' engineering experience, consistently delivering innovation to its customers. During the COVID-19 pandemic, they developed an Air Mass Sanitiser (AMS) which has the capability to continuously sanitise small indoor air spaces with high-occupancy rates (such as GP surgeries) to destroy SARS-CoV-2 and other pathogens to reduce t...
COVID-19 Risk Reduction for Confined Environments
1 Oct 2020 to 30 Apr 2021
The control and prevention of transmissible infections has been a constant in human affairs for a very long time. However, since the availability of vaccines for common diseases in the nineteenth century, the importance of maintaining infection control techniques in the community has declined somewhat. The emergence of COVID-19 as a serious respiratory il...
Aerosol Mist Separation Units for Enhanced Personal Protection in Indoor Environments
1 Jul 2020 to 31 Dec 2020
Preliminary results on the diffusion of the novel virus SARS-CoV2 indicate that aerosol particles carrying the virus can remain in the air longer than was originally thought. Whilst it is accepted that large particle droplets from coughs, sneezes and exhaled air would drop to the ground within 2 metres, there is evidence that when the water around very sm...
DRIFT
1 Dec 2009 to 30 Nov 2010
The public description for this project has been requested but has not yet been received.