WATER SECURITY, RISK AND SOCIETY Environmental Change Institute, University of Oxford

16 - 18th April 2012

Communication of climate change projections

for building water management PROBLEM: Buildings and the people in them need water and future non-mains water, for instance rainwater may become increasingly important. In

order to take advantage of rainwater, engineers need to use climate projections to understand the availability of rain. The latest projections are probabilistic which adds an extra complexity in their interpretation.

M. Shamash M.Sc. B.Sc.

UKCIP/CIBSE (KTP Associate)

mshamash@cibse.org

Dr A. Mylona ArchEng PhD

CIBSE/UKCIP

G.Metcalf M.Sc. Dip Arch

UKCIP

The project is a Knowledge Transfer

Partnership (KTP) between UKCIP at

University of Oxford and CIBSE and is

funded by CIBSE, the Engineering and

Physical Science Research Council

(EPSRC) and the Technology Strategy

Board (TSB) www.ktponline.org.uk/

Have you got any thoughts on ProCliPs? We would appreciate comments on the material contained in this poster to be sent to Maria at mshamash@cibse.org

Telephone: 020 8772 3645

Postal address: Chartered Institution of Building Services Engineers, 222 Balham High Road, London SW12 9BS.

The probabilistic approach in the

latest UK Climate projections

Figure 1: Cumulative distribution function, and frequency

distribution for change in temperature (Jenkins, G.J et al, 2009

UK Climate Projections: Briefing report. Met Office Hadley Centre, Exeter,

BELFAST Precipitation ProCliPs (Probabilistic climate profiles)

POSTER KEY POINTS

The climate data can tell us about the sensitivity of a particular climate variable e.g. mean air temperature to 1) different future time

periods, 2) different emissions scenarios and 3) the newly introduced probability levels in the UKCP09 climate projections

The ProCliP graphs developed by this project show us these sensitivities for a particular location

The latest UK Climate projections (UKCP09) are the first

probabilistic projections for the UK meaning that data is

presented as a probability range (e.g. 10% level through to

90% level)

looked at some of the latest data on global emissions2 suggested to that the high emissions

is most likely until the 2050s.

Emissions scenario selection for tank sizing design development: High emissions scenario

Probability level considerations: In the ProCliPs the probability level has a large influence on

the precipitation, for instance in winter in the 2050s the difference in daily precipitation is

over 1.5mm. The information from the 10% and 90% probability levels is useful for design

development in considering how the building will cope if there is higher or lower levels of

rainfall, (or snow, etc.) in addition to the 50% probability level or central estimate.

Probability level selection for tank sizing design development: 10%, 50% + 90%

Design development consists of using the figures in the table below for tank

sizing calculations, which also requires roof size, and water demand inputs.

2 John Cook, Skeptical science: getting sceptical about global warming skepticism, Blog 2011

available at; http://www.skepticalscience.com/news.php?n=779

Project methods

Data was taken from the Met Office UKCIP data from the UK Climate Projections User Interface1 for the baseline weather values (period 1961-90) and from the UKCP09 User Interface, for future climate projections including precipitation.

The ProCliPs present future projections three time periods (2020s for 2010-2039, 2050 for 2040-2069, 2080 for 2070 -2099) and emissions scenario (low, medium, high) probability level (10th, 33rd 50th, 66th, 90th percentiles) for different UK locations from the available 25km grid.

In an additional activity case studies were chosen and developed using the above re-formatted information together with project considerations to enable recommendations for further analysis. 1 UK Climate Projections User Interface available (registration required)

at: http://ukclimateprojections-ui.defra.gov.uk/ui/admin/login.php

EDINBURGH Precipitation ProCliPs (Probabilistic climate profiles)

LONDON Precipitation ProCliPs (Probabilistic climate profiles)

Introducing probabilistic climate profile (ProCliP) graphs…..

The graphs are developed by this project from UKCP09 data available from Defra’s UK Climate

Projections User Interface (links at bottom of page). They are ;

Figure 2: Location is one of

25km grids across the UK

(Defra, Crown copyright)

location specific, see figure 2

climate variable specific

compare baseline values from 1961-90

period

Show three time periods, emissions

scenarios and five probability levels

Figure 3: ProCliP for London summer mean daily maximum

temperature (produced by this project)

The latest climate projections

for the UK are probabilistic in

approach, with probability data

on each climate variable

derived from a cumulative

frequency function for each.

However this information is not

is in a format that building

professionals are likely to use.

CARDIFF Precipitation ProCliPs (Probabilistic climate profiles)

Use of ProCliP in water management design

development

The ProCliP graphs as well as helping building designers to gain

initial familiarity with the possible future climates can form part

of the design development. In this case study we see how its

use by designers of a hotel who are considering rainwater

harvesting.

Case study

Location: Cardiff

Building type: New build hotel

Aspect of performance under analysis: Tank

sizing for rainwater harvesting

Climate variable of interest: Precipitation

Format of data required for design development: - Annual, seasonal

precipitation (mm)

These are the ProCliPs relevant to the design development of

this aspect of performance.

Time period considerations: The client wants the hotel to be designed for a 60

year lifespan. In Spring and Autumn the shape of the graph does not change

significantly between 2020s and 2050s, so using only one of these periods

(the most different to the base data therefore 2050s) could be a way of

reducing the number of variables used.

Time period selection for tank sizing design development: Winter - 2020s +

2050s, Spring - 2050s, Summer - 2020s + 2050s , Autumn - 2050s

Emissions scenario considerations: Looking at the ProCliPs the similarity

between different scenarios is seen especially in the 2020s. The designers

Winter Spring Summer Autumn

Base 2020s 2050s Base 2050s Base 2020s 2050s Base 2050s

Percentile

90th - v. unlikely to be more than

3.7˚C

4.6˚C 5.7˚C

2.6˚C

2.8˚C

2.7˚C

3.1˚C 2.9˚C

3.9˚C

4.9˚C

50th - Central estimate 4.0˚C 4.6˚C 2.6˚C 2.6˚C 2.2˚C 4.2˚C

10th - V. unlikely to be less than 3.6˚C 3.9˚C 2.4˚C 2.1˚C 1.6˚C 3.7˚C