Lawrence Webster Forrest (LWF), Fire Engineering and Fire Risk Management Consultants
Lawrence Webster Forrest (LWF), Fire Engineering and Fire Risk Management Consultants



Navigation

Client login
Forgotten password
Follow us on Twitter Follow us on Facebook Subscribe to our blog

Lawrence Webster Forrest
Legion House
Lower Road
Kenley
Surrey
CR8 5NH

Tel: +44 (0)20 8668 8663 Fax: +44 (0)20 8668 8583
E-mail: fire@lwf.co.uk

Case Study: Bristol University Bioscience Building - Fire Design, Fire Engineering, CFD

Key Facts:
Client: University of Bristol
Project Managers: Capita Symonds
Architect: Sheppard Robson Architects
Approximate Size: 13,000m2

Description of the Project:

The proposed new Bristol University Bioscience
Building will be located at the junction of Tyndall Avenue
and St. Michael’s Hill on the site of Bristol University. The
building is due to be completed in 2013 as part of the
Universities Phase 1 Development Master Plan and
comprises two wings, a laboratory wing and office
wing. The laboratory and office areas are connected
at each level by open bridges across a large atrium
space which also contains the main circulation routes
through the building. The building will have a basement,
ground and four above ground storeys. A greenhouse is
also to be provided at roof level

LWF Involvement:

• Review design proposals and provide fire engineered
options to achieve architectural and user objectives
for the building;

• Provide analysis using Computational Fluid Dynamics
(CDF) simulation to ensure tenable conditions are maintained
for means of egress in the atrium;

• Prepare detailed fire strategy for the development;

• Coordinate with the client and design team;

• Liaise with approval authority for fire safety approval
of the project.


 


 



For further information regarding this project or the services that LWF provide please contact:
Peter Gyere – Marketing Manager
Lawrence Webster Forrest
Legion House
Lower Road
Kenley
Surrey CR8 5NH

TEL: +44 (0)20 8668 8663
FAX: +44 (0)20 8668 8583

Email: p.gyer@lwf.co.u 



Link:

Subscribe to our fire safety blogs

Bulletins
Email Format
* indicates required

FIRE SAFETY BLOGS

  • Fire Engineering Design and Risk Assessment - Firefighting & External Water Supplies - Part 27

    In LWF’s Fire Engineering blog series for Architects and others in the building design business, we have been looking at fire safety engineering. In part 26, we looked at how the choice of fire hydrant can affect the efficiency of delivery and by working out the additional time required to prime an underground hydrant when compared to a pillar hydrant with instantaneous couplings, it was established there could be as much as 2 minutes delay...

    Read more...

  • Fire Safety for Healthcare Premises - Venting of Basements - Part 61

    In LWFs blog series for healthcare professionals, the aim is to give information on best practice of fire safety in hospitals and other healthcare premises. In part 60 of this series, the placement of fire hydrants in relation to hospital buildings was discussed. In part 61, we will look at the effects of smoke on basement levels and the use of venting.A fire which starts in a basement or involves a basement level causes...

    Read more...

  • Facilities Management & Fire Safety - Insurers & Property Protection - Part 8

    In LWF’s blog series for those who work in Facilities Management or who have an interest in or responsibility for fire safety, we have been looking at the part Insurers have played in property protection over the years. In part 7, we discussed the role the FOC played in producing rules and regulations not only for building standards but also for fire protection products. In part 8, we will continue looking at the impact of...

    Read more...

  • Fire Engineering Design and Risk Assessment - Firefighting & External Water Supplies - Part 26

    In LWF’s fire engineering blog series for Architects and other interested parties in the building design business, we have been looking at firefighting. In part 25, we looked at how hydrants should be located in relation to the building perimeter and the likely position of a Fire Service pump upon attending a fire at the premises. In part 26, we continue looking at location and also the type of hydrant provided in relation to the...

    Read more...

  • Fire Safety for Healthcare Premises - Fire Mains - Part 60

    In LWFs blog series for healthcare professionals, the aim is to give information on best practice of fire safety in hospitals and other healthcare premises. In part 59 of this series, LWF discussed the requirements for healthcare buildings with a hospital street and which do not require a fire-fighting shaft. In part 60, we will look at the provision of fire mains.Fire mains must be provided in every firefighting shaft, or in some instances,...

    Read more...

Case Studies

The Wohl Neuroscience Institute - Fire Safety, Strategy & Engineering
Key Facts: Client: King’s Clinical Neuroscience Institute Project Manager: MACE Ltd Designers: Devereux Architects/Allies and Morrison Approximate Size: 7,400m2 Description of the Project:...

Read more..

General Bulletins

Fire - The External Risk
When we consider fire safety, our focus is normally from within, what can we do to prevent the occurrence of fire and how we can limit its damage.  Whilst this is the correct stance to take, we m...

Read more..

Technical Bulletins

Evacuation Modelling - Factor in Human Behaviour
Evacuation of buildings can be analyzed in different ways. Approved Document B (ADB) which provides guidance on meeting the requirements of the England and Wales Building Regulations with regard to fi...

Read more..

Site map | Web development London