LOBO Energy

LOBO Energy - Valero Energy Oil Refinery Pemboke UK

LOBO Systems at Valero Energy

Valero acquired the Pembroke refinery in South West Wales in 2011, marking Valero's entry into the European refining market. Opened in 1964, the refinery is one of the largest, most complex refineries in Western Europe. It makes products including gasoline, diesel fuel, kerosene, liquefied petroleum gas (LPG) and petrochemical feed stocks.

Within the refinery, scaffolding is used to provide access for preventative and reactive maintenance, inspection and operational tasks. For the last 30 years this been provided by an out sourced scaffolding company, and with rising labour costs continues to account for an ever increasing expense year on year for Valero.

This has driven the site Refinery Services Department to completely review the scaffold and access requirements to identify safe and suitable lower cost alternative solutions to traditional scaffolding. During this research, the LOBO System was identified and a sample order, together with the approved training package, was purchased. Having received the LOBO System pilot order in 2013, a focus was placed to use it on all works, excluding the very high designed access applications.

The plan was to use the LOBO System for many of the scaffolding jobs on routine maintenance that require working at height; it was estimated that as much as 75% of works needed a platform height of 4 metres or below.

LOBO Systems at Valero Energy 

 

 

 

 

 

 

Other products or scaffolding would be used for the residual high applications.  The LOBO System can be assembled without the use of any tools in minutes, safely and any shape or size and is not reliant on the scaffolding company to return and remove  thesystems after the maintenance task has been completed, which can increase hire costs. Valero continues to use a number of different access systems for maintenance around  the Pembroke Refinery site. Scaffolding costs alone at Pembroke, are in the region of £300k a month and Valero has identified significant benefits in deploying the LOBO System since they first purchased in 2013.


Conclusion - Cost Saving

In 2014 the LOBO Advanced Platform System was used for around 8% of the applications, this increased to 15% by 2015 and it is expected to rise to more than 20% in 2016.

Monthly Scaffolding Spend £300,000

 

% Saved on scaffolding cost by spending on LOBO

Annual Spend On LOBO

Total Monthly Saving, money NOT spent on Scaffolding

Cumulative

Saving

2014 Actual

8%

£170,000

£300,000 x 8% = £24,000

£288,000

2015 Actual

15%

£ 30,000

£300,000 x 15% = £45,000

£828,000

2016 So Far

20%

£ 23,000

£300,000 x 20% = £60,000

£1,548,000

2017 Projection

25%

£ 43,000

£300,000 x 25% = £75,000

£2,448,000

2018 Projection

30%

£ 51,000

£300,000 x 30%= £90,000

£3,528,000

 

Official figures approved by Valero Energy, Pembroke UK

As can be seen by the figures, well over £1,500000 of scaffolding costs were saved in the 3 year period from 2013 to 2016. If the increase in usage happens as it is expected to, over £3,500,000 will be saved in the five year period to 2018.

Significant cost savings, by using the LOBO scaffolding system, have been made at the refinery in terms of labour cost and also in the reduction of maintenance down time. In house maintenance crews can assemble the system quickly and safely around, under or above plant, even in restricted areas. Maintenance tasks can be better controlled and out sourced scaffolding labour costs can be significantly reduced without compromising safety.

Scaffolding For Non Scaffolders

Training

LOBO Systems always recommends full product training for all users to ensure competency and safe use.

Custromers

Shell, Bilfinger, Valero Oil.

Conformities

UK: BS 1139 Part 3 and BS 1139 Part 4.

Europe:  BS EN1004:2004.

USA: OSHA, ANSI A10.8, Scaffolding 1926.451, 29 CFR 1920 General Industry.

Australia: AS/NZS 1576.1:2010 and AS/NZS 1576.3:2015 Tower

Canada: CAN/CSA Z797-09

General: The LOBO System has been deemed suitable for the intended use by Zurich Engineering in 2009.

Back

Case Studies

Centrica Energy

Lincs Wind farm