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Company profile

Industrial Phycology Limited

Industrial Phycology

We are a Green Solutions Company. No chemicals are used in our sustainable water recycling process. I-Phyc are the partner you need to clean your wastewater.#

CRN
08273782
Founded
2012
Age
13

Overview

Legal name
INDUSTRIAL PHYCOLOGY LIMITED
Region
West Midlands
Registered address
KINGSWAY HOUSE
40 FOREGATE STREET
WORCESTER
ENGLAND
WR1 1EE
Insolvency history
No

Company events

Reference milestones and recent Companies House filing stream events.

9 events
31 Jul
2027

Accounts due

Accounts Due

Next accounts due date

13 Nov
2026

Confirmation statement due

Confirmation Due

Next confirmation statement due date

22 May
2026

Accounts With Accounts Type Total Exemption Full

Accounts Awaiting analysis

AA | Transaction MzUyMzI3ODQxNGFkaXF6a2N4

Published 22 May 2026 13:32

31 Oct
2025

Accounts filed

Accounts

Last accounts made up date

30 Oct
2025

Confirmation statement filed

Confirmation

Last confirmation statement made up date

12 Nov
2024

Confirmation Statement With Updates

Confirmation-statement

CS01 | Transaction MzQ0Mjc3MzczMWFkaXF6a2N4

Published 12 Nov 2024 08:27

01 Nov
2024

Capital Allotment Shares

Capital

SH01 | Transaction MzQ0MTc3NDY5NmFkaXF6a2N4

Published 01 Nov 2024 04:47

29 Aug
2024

Termination Director Company With Name Termination Date

Officers

TM01 | Transaction MzQzMzgwNTA4MWFkaXF6a2N4

Published 29 Aug 2024 11:44

30 Oct
2012

Incorporated

Inception

Company registered at Companies House

Public funding

10 awards
First funded
2013
Funded years
2013, 2015, 2017, 2018, 2020, 2022, 2024
Age at first award
0 years

Projects

2024 Collaborative R&D Lead participant

Moving away from aeration – utilising computational fluid dynamics modelling ofmechanical mixing within an industrial scale nature-based wastewater treatment system

1 Jan 2024 to 30 Jun 2024

Awarded
£23,711
Total cost £39,519

The water treatment industry currently uses metal salt dosing (MSD) to precipitate the phosphorous into a sludge which can then be removed and disposed of. There has therefore been a massive increase in demand for ferric (the most used MS). The UK government's plan to achieve 'Net Zero' decarbonisation highlighted the need for WW operators to utilise alte...

2022 Collaborative R&D Lead participant

Advanced modelling for improved separation efficacy from Industrial Phycology’s algal wastewater treatment process – Reducing the CAPEX and OPEX of sustainable water treatment process

1 Oct 2022 to 31 Mar 2023

Awarded
£21,863
Total cost £36,438

New legislation has highlighted the need for nutrients, such as phosphorous and ammonium in wastewater (WW) discharges to be reduced to protect our environment. The water treatment industry is currently heavily dependent on the use of chemicals to promote phosphate-precipitation into a sludge which must then be removed and disposed of. There has been a ma...

2022 Collaborative R&D Lead participant

Advanced modelling for improved mixing of an Algal Biological Reactor (ABR) for sustainable water treatment within variable environments

1 Jan 2022 to 31 Mar 2022

Awarded
£16,995
Total cost £16,995

New legislation has highlighted the need for nutrients, such as phosphorous, in wastewater (WW) discharges to be reduced to protect our environment. The water treatment industry currently uses metal salt dosing (MSD) to precipitate the phosphorous into a sludge which can then be removed and disposed of. There has therefore been a massive increase in deman...

2020 Feasibility Studies Lead participant

106001: Advanced multi-variable modelling for the optimisation of the industrial use of microalgae

1 Jun 2020 to 31 Mar 2021

Awarded
£62,232
Total cost £62,232

no public description

2020 Collaborative R&D Lead participant

Advanced multi-variable modelling for the optimisation of the industrial use of microalgae

1 Mar 2020 to 31 May 2021

Awarded
£97,143
Total cost £138,775

New legislation has highlighted the need for nutrients, such as phosphorous, in wastewater (WW) discharges to be reduced to protect our environment. The water treatment industry currently uses metal salt dosing (MSD) to precipitate the phosphorous into a sludge which can then be removed and disposed of. However, this method has numerous drawbacks such as ...

2018 Feasibility Studies Lead participant

Commercial use of biomass generated by microalgal treatment of wastewater

1 Mar 2018 to 28 Feb 2019

Awarded
£114,329
Total cost £163,327

UK and European wastewater industries are struggling to identify and install the technology necessary to meet the ever more stringent demands placed on them through legislation. Such regulations are demanding they produce effluents with lower nutrient contents, whilst reducing the energy use of their processes at the same time. Microalgae if used properly...

2017 Collaborative R&D

Laser Lighting for Algae growth and Water for the World (LIGHTWAY)

1 Apr 2017 to 31 Mar 2020

Awarded
£71,695
Total cost £102,421

High efficiency solid state lighting (SSL), in the form of LEDs, is becoming the main light source for general lighting. Unfortunately LEDs cannot operate at high power without loss of efficiency, a problem which does not affect laser diode light sources. Algae growth and horticulture are areas where maximal efficiency with an optimal light spectrum is cr...

2015 Feasibility Studies Lead participant

Use of acoustic separation for the separation of hydraulic retention times and harvesting in the production of microalgae

1 Jun 2015 to 30 Sep 2015

Awarded
£9,001
Total cost £12,858

Algae can be used for the production of a huge range of bioactive chemicals from nutraceuticals such as antioxidants, through to designer proteins for advanced pharmaceutical use. Unfortunately technology is currently not developed to the point where algae can be successfully cultured at industrial scales for commercial use. One of the key areas holding b...

2013 Feasibility Studies Lead participant

Industrial photobioreactor for final effluent polishing nutrient recovery from wastewaters and production of biomass for renewable energy

1 Aug 2013 to 30 Nov 2013

Awarded
£24,375
Total cost £32,500

UK and European wastewater industries are struggling to identify and install the technology necessary to meet the ever more stringent demands placed on them through legislation. Such regulations are demanding they produce effluents with lower nutrient contents whilst reducing the energy use of their processes at the same time. Microalgae if used properly ...

2013 Vouchers Lead participant

Industrial Photobioreactor

1 Apr 2013 to 31 Oct 2013

Awarded
£5,000
Total cost £5,000

The voucher will enable us to procure the assistance of an expert in LED manufacture to provide the lighting needed for the first demonstration of our technology. This will consist of producing detailed designs for the lighting required, manufacturing the lights themselves & the bespoke software required to drive them & incorporate the biophotonics requir...

Product types

Collaborative R&D Feasibility Studies Vouchers