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Company profile

Venturi Jet Pumps Limited

Desuperheaters, Vacuum Ejectors, Compressors, Syphons & Eductors - Venturi Jet Pumps Ltd

Venturi Process Equipment to suit many industrial process requirements such as Desuperheaters, Vacuum Ejectors, Jet Compressors, Eductors and Syphons for pumping and mixing and Steam Jet Heaters

CRN
03654492
Founded
1998
Age
27

Overview

Legal name
VENTURI JET PUMPS LIMITED
Region
West Midlands
Registered address
VENTURI HOUSE EDENSOR ROAD
LONGTON
STOKE-ON-TRENT
STAFFORDSHIRE
ST3 2QE
Insolvency history
No

Company events

Reference milestones and recent Companies House filing stream events.

9 events
31 Dec
2026

Accounts due

Accounts Due

Next accounts due date

23 Jul
2026

Confirmation statement due

Confirmation Due

Next confirmation statement due date

09 Jul
2025

Confirmation statement filed

Confirmation

Last confirmation statement made up date

31 Mar
2025

Accounts filed

Accounts

Last accounts made up date

21 Nov
2024

Second Filing Notification Of A Person With Significant Control

Persons-with-significant-control

RP04PSC01 | Transaction MzQ0NDQ1NDEyNWFkaXF6a2N4 | Paper/PDF filed

Published 21 Nov 2024 03:26

29 Oct
2024

Confirmation Statement With No Updates

Confirmation-statement

CS01 | Transaction MzQ0MTIxOTMzNWFkaXF6a2N4

Published 29 Oct 2024 08:20

04 Sep
2024

Accounts With Accounts Type Micro Entity

Accounts Awaiting analysis

AA | Transaction MzQzNDQ5NDkzOGFkaXF6a2N4

Published 04 Sep 2024 13:22

06 Nov
2023

Change To A Person With Significant Control

Persons-with-significant-control

PSC04 | Transaction MzM5ODk3Mzc4NmFkaXF6a2N4 | Paper/PDF filed

Published 22 Nov 2024 03:18

22 Oct
1998

Incorporated

Inception

Company registered at Companies House

Public funding

4 awards
First funded
2015
Funded years
2015, 2016, 2017, 2020
Age at first award
16 years

Projects

2020 Feasibility Studies

Power Generation and Heat Recovery from Industrial Waste Heat with Advanced CO2 Thermodynamic Power Cycles (PowerCO2)

1 Dec 2020 to 31 Mar 2022

Awarded
£43,772
Total cost £62,531

Each year in the UK, approximately there are 48 TWh/yr industrial waste heat sources which is equivalent to one sixth of overall industrial energy use. Of this amount of industrial waste heat, technically 11TWh/yr (2.2 MtCO2/yr) could be potentially recovered for useful purposes such as Combined Heat and Power (CHP) through specially designed energy conve...

2017 Feasibility Studies

A novel industrial waste heat recovery system for pollutant removal, water production and cooling

1 Sep 2017 to 31 Aug 2018

Awarded
£28,366
Total cost £40,523

The project aims to optimise and construct a prototype driven by industrial waste heat, suitable for sustainable cooling, water production and pollutant removal. Through the utilisation of an innovative moist airflow system (MAS), the proposed system will harness low grade waste heat (80°C or over) released from any industrial coal/biomass fired boiler. T...

2016 Feasibility Studies

Micro-CHP using steam ejector/water turbine (WaterGen)

1 Jan 2016 to 31 Dec 2016

Awarded
£21,230
Total cost £30,340

The aim of the project is to develop an innovative and highly efficient, micro-CHP using steam ejector/water turbine/Pelton wheel system. The technology can be used for heat and power provision in industrial and commercial applications. The low cost system would reduce carbon reduction by the utilisation of renewable energy sources, waste heat or hybrid s...

2015 Collaborative R&D

Low Grade Waste Heat Driven CHP Combined with Ejector System for Heating, Cooling and Power Generation in the Drink Supply Chain

1 Oct 2015 to 30 Sep 2017

Awarded
£48,000
Total cost £80,000

The project aims to design/optimise and construct a small scale (5kW electricity power/3kW cooling) prototype waste heat-driven Combined Moist Airflow System (MAS) - Trigeneration - Ejector system, suitable for sustainable heating/cooling and electricity generation at reduced cost for the food and drink manufacturing and (re) processing plants. Through th...

Product types

Collaborative R&D Feasibility Studies