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Mogden STW

CHP enhancement & air main resilience

by Rob Cullen & Andrew Wild

 (published September 2017)

 

Mogden STW - Courtesy of eight2O

CHP flue with associated equipment on gantry

Courtesy of eight2O

 

Mogden Sewage Treatment Works is the second largest in the UK. The first phase was built between 1931 and 1935 at a cost of £1.7 million and covers an area of 55 hectares. The facility treats wastewater from a population equivalent of 1.9 million across a 60 square mile catchment area of north and west London. The works has subsequently been extended and currently the treatment capacity of Mogden STW meets the needs of London’s expected population growth by 2021. This paper looks at two recent projects completed in early 2017; CHP enhancements and the air main resilience project.

 

CHP enhancements

Project drivers: The existing combined heat and power (CHP) plant comprised 4 (No.) 2.2MWe dual-fuel Mirrlees Blackstone engines that had been installed in 1989. Issues included:

 

►  The CHP plant had reached the end of its service life.

►  The CHP reliability was poor, with three of the four engines operating continuously and the fourth engine offline for regular service and maintenance intervals scheduled every 10,000 hours.

►  The dual-fuel engines ran on a diesel ignition process and the emissions were not as clean as the modern spark ignition counterpart. Efficiency was low in comparison to more modern engine technology.

►  The engines were installed within the existing power house building, causing noise pollution well above 110dBA.

►  Sourcing genuine parts was also problematic.

 

End view of new CHPs - Courtesy of eight2O

Side view of CHPs with control panels

Courtesy of eight2O

 

New CHP plant: Edina Group was contracted to supply, install and maintain 3 (No.) 2MWe MWM TCG 2020 V20 biogas reciprocating CHP engines as part of the upgrades to the existing CHP system.

 

The £24.6m CHP enhancement project improved serviceability and power generation, whilst reducing operational costs and the sites environmental impact. It was installed in an area adjacent to the existing CHP plant, allowing for the this to be kept operational during installation, commissioning, and performance testing of the new plant.

 

A new flue stack was erected to comply with the chimney heights regulations, and coolers from excess heat dump and intercoolers were all installed outside the 80-year old power house. Similar to the biogas line, the hot water circuit was interrupted and a diversion circuit was created in the basement of the power house so that the heat from the new engines could be easily diverted into the boilers feeding the pasteurisation process whilst still maintaining the heating from both the old CHPs and the boilers.

 

By containerising the CHP engines in individual acoustic enclosures, and the shutting down of the old CHP engines, the noise level within the powerhouse has significantly reduced, with the Edina CHP engines operating at 65dBA.

 

Key scope items

Supplier

3 (No.) CHP units

Edina

2 (No.) HV transformers and 3 (No.) Fault limiting current reactors

Winder Electric

1 (No.) HV Panel S8

Siemens

1 (No.) LV panel D91

Boulting Group

1 (No.) Flue stack and ducting

James Engineering

1 (No.) Siloxane Filter

Parker PpTek

1 (No.) Pressure Reducing Station

Active Flow

3 (No.) Intercooler radiators

Edina

3 (No.) Dump radiators

Edina

Electrical installation

FSDL

Support gantry (external)

R&B Engineering

Biogas pipework

Franklyn Yates & Edina

Hot water pipework

Franklyn Yates

Piling

Screw Fast

PMS upgrade in incorporate new CHP and remove existing CHP

Brush

 

Work started on site on 12 November 2015 and the CHP station was providing beneficial use on 1 February 2017. In April 2017, the CHP station finished its 28-day reliability trial period and is showing some significant results reported by Thames Water. In its first few weeks of operation, reports suggest that the CHP has generated a 47% increase in electricity when compared to the same period in 2015. Although the energy generated does vary week on week, it potentially represents a weekly cost reduction of £123,000 for Thames Water.

 

Air main resilience project

Project drivers: The key driver for the Mogden STW Air Main Project is the reduction of the significant business risk associated with the life-expired asset, which is one of Wholesale Wastewater’s Top 3 asset risks.

 

Mogden Air Main Replacement Project - final report October 2012 - Courtesy of Black & Veatch

Click to enlarge

 

The section of existing air main that is of most concern is an 80 year old cast iron main (coloured yellow in the schematic on the next page), which is currently showing significant evidence of early failure with a risk of total failure.

 

This air main is a single point of failure for four of the five ASP batteries (A, B, C and D). Loss of aeration for greater than 45 minutes will lead to a final effluent compliance failure which will negatively impact the following performance commitments:

 

►  SB1 WWNI Asset Health.

►  SC2 Consented and Unconsented Pollution Incidents.

►  SC3 Discharge Compliance.

 

These possess a significant (£10-£20m) regulatory, environmental and reputational penalty.

 

Air pipework feeding lanes west of road crossing

Courtesy of eight2O

Air Main distribution pipework road crossing to lane header pipework - Courtesy of eight2O

 

In addition, six of the eight existing blowers are past their design life and have become very difficult and expensive to maintain. Spare gearbox parts need to be reverse engineered as they are no longer commercially available. Blowers for Batteries A, B, C and D are all housed in the main blower house which is another single point of failure in the event of fire.

 

Key scope items

Supplier

4 (No.) HV blowers

Howden

2 (No.) HV and 2 (No.) LV transformers 

Winder Electric

1 (No.) HV and 1 (No.) LV panel

ATG

Electrical installation

FSDL

1 (N0.) MCC kiosk

Morgan Marine

Air main inc. supports

Franklyn Yates

Piling

Screw Fast

Civil Infrastructure

Ward & Burke

Electrical installation FSDL 1 (No.) PMS panel and PMS interface with C726 (CHP project)

Brush

 

Air Main blower station (blowers, MCC and switchgear kiosk, air distribution header main)

Courtesy of eight2O

 

Key scope of work

The project has provided a new blower installation and dedicated air main for Batteries A and B, removing these batteries from the life expired ring main, which is a single point of failure.

 

Blowers are located outside adjacent to the administration building and north of the lanes and provided with weatherproof acoustic enclosures. This will result in Batteries A and B having dedicated new blowers and new air main. This has removed the single point of failure that currently exists by having the blowers for Batteries A, B, C and D all located in one location (the Power House Blower House). Batteries C and D air main is due for replacement in AMP7 with a new blower location and air main, thereby making the full air main redundant. Until this is constructed risk of aeration failure will remain for batteries C and D.

 

High view of air main blowers distribution pipework, including silencers - Courtesy of eight2O

 

The £17.6m air main resilience project started on site on 18 November 2015 and the blowers started supplying air to all of battery A and B on 26 April 2017.

 

The editor and publishers would like to thank Rob Cullen, Delivery Manager with eight2O, Andrew Wild, Marketing Executive with Edina, and TWUL for providing the above article for publication.

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