refocus lighting design on human behaviorand … lighting design...focus of modern lightingdesign...

Refocus lighting design on human behavior and building usage

the right amount of light at the right place at the right moment

Climate Change

Global warming versus a global warning

What can you do as a lighting designer?

Contents

1. Introduction

2. Refocus lighting design on human behaviourand building usage

3. Sustainable design: energy saving strategies

4. Light Management Systems

5. Projects

6. Conclusion

7. Questions

Introduction of myself

Education

- Master degree “Technology, policy and Innovationmanagement”

- Bachelor degree “Electrical engineering”

- Post-bachelor “Lighting designer”

- Post-bachelor “Building services engineer”

Experience - 2003- 2009 Deerns Consulting Engineers

Eindhoven, Netherlands

Job title- Lighting designer- Projectleader

Other activities

- 2006- 2009 BOB b.v, teacher “lighting design”

- 2007- 2009 Design member of PLDA

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Consulting engineers in technology

in the building environment

� Lighting

� Electrical installations

� Communication technology

� HVAC

� Etc…

Deerns Consulting Engineers

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Clients in Business Sections

� Health care institutions

� Airports

� Office buildings, Museums and Educational facilities

� Laboratory, Industrial and Telecom facilities

� Energy and Environmental studies and engineering

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Office Locations

The Netherlands

� The Hague/Rijswijk (Head Office)

� Amsterdam

� Groningen

� Eindhoven

� Maastricht

� Nijmegen

Germany

� Cologne

� Berlin

International

� Dubai (UAE)

� Phoenix (USA)

� Barcelona (Spain)

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Our Corporate Identity

� Independent…

…from external capital providers

…from other players in the construction

industry

� Not listed

Long-term investment focus

Highly involved staff

� Involved in “top of the bill” projects

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Focus of modern lighting design

� The use of high-tech and sustainable materials

� The use of high output optical materials and reflectors

� The use of high tech light sources

� Well shaped design luminaires

� The lighting effects

-> these characteristics determine the budget for lightinginstallations

Nowadays sustainable lighting design is primarily based on:

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Focus of modern lighting design

Which lighting design has the lowest energy demand?

B

• one luminaire - a halogen light bulb of 40 W

• a movement detector

• 10 times a day for 10 minutes

A

• one luminaire - an energy saving bulb of 11 W

• a central switch in the anteroom

• continuously for 10 hours a day

Both luminaires produce the same

amount of lumen

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

A 110 Wh per day

B 67 Wh per day - 40% !

Refocus lighting design

� Different work times

� Different tasks

� The user’s influence

� The use of light in sanitary and storage rooms

� The need for daylight

Human behavior

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Refocus lighting design

� The colors of the interior

� The presence of people

� Energy peaks at certain times

� Flexible or fixed workplaces

� Possible reorganizations of rooms and workplaces in the building

Building usage and characteristics

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Refocus lighting design

Source: Zumtobel Light Handbook 2008

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. ConclusionEN 12464 - Lighting of work places

Refocus

Strategies for energy saving

1. Intelligent time control

2. Daylight dependent dimming

3. Adaptation to the task environment

4. Movement detection / person-car tracking

5. Individual control

6. Limitation of the peak output

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Source: Encelium 2009

Strategies for energy saving

1. Intelligent time control

2. Daylight dependent system

3. Adaptation to the task environment

4. Movement detection

5. Individual control

6. Limitation of the peak output

7. Reduce overcapacity of lighting installation

Future: artificial intelligence?

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Saving energy

Strategies for energy saving:

Source: Encelium

adaption to task

movement

detection

time

control

individual

control

daylight

peak shaving

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Refocus lighting design

What is a Light Management System (LMS) ?

LMS is a system that connects the components of a lighting installation by a network in order to realize communication at a higher level.

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Light Management Systems (LMS)

Advantages of Light Management Systems

� Possibilities for energy saving

� Check condition of installation

� Flexibility

� Different light scenes

Photo: Erco

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Light Management

1. Integration in a Building Management System

2. Open or closed protocol

3. Investment costs versus running costs

Picture: Trilux

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Considerations:

Light Management

Communication:

� BUS – Binary Unit System

� Cables – electrical wiring, UTP, coax

� Protocol – language

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Characteristics of DALI

� Developed by lighting industry

� Only lighting control

� Open protocol

� Intelligence in luminaires

� Gateways to other protocols

� Electrical wiring with 5 cores Picture: Osram, Visions turn to light

DALI - Digital Addressable Lighting Interface

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

DALI Schematic

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

LMS of well-known manufacturers

� Erco - Light system, Area Net, Professional Net

� Etap Lighting - ELM and ELS

� iGuzzini – DLC Master 1

� Osram – DALI LMS

� Philips – Light Master Modular

� Tridonic Atco – LuxControl

� Trilux – Light management systems

� Zumtobel – Luxmate

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Life cycle costs

Costs versus benefits Savings Pay-back

� Stand-alone:

– Movement detection 30% 7-10 years

– Daylight dep. dimming 25% 7-12 years

� Light Management System50-70% 5-7 years

(more than 500 luminaires)

In some countries grants are provided by the government for those systems

-> shorter pay-back times

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Life cycle costs

Break-even point cumulative present value

€ 4.000.000-

€ 3.500.000-

€ 3.000.000-

€ 2.500.000-

€ 2.000.000-

€ 1.500.000-

€ 1.000.000-

€ 500.000-

€ -

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

time [year]

pre

sent valu

e

traditional lighting installation

advanced LMS

Pay-back time

5 year

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Reference projects based on LMS

Suntech (Green Energy Building) – Wuxi, China

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Reference projects based on LMS

Progress Werk Oberkirch (PWO) – Suzhou, China

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Reference projects based on LMS

Belval - Esch-sur-Alzette, Luxembourg

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Maritime museum – Amsterdam, Netherlands

Reference projects based on LMS

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Conclusion (1)

� Traditionally focused lighting designs does not always have the lowest possible energy demand

� Important is the way in which a building is used by the people who work or live in it

� LMS can adapt a lighting installation to human behavior

� Energy saving strategies can be implemented in a LMS

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Conclusion (2)

� Maximum efficiency can be reached by combining strategies in a LMS

– Lower energy demand

– Shorter pay-back-time

� Most of the well-known manufacturers have LMS systems

� LMS provides the right amount of light at the right place at the right moment

1. Introduction – 2. Refocus – 3. Energy saving – 4. LMS – 5. Projects – 6. Conclusion

Deerns brings Concepts to Life

Questions ?

Questions after Euroluce?

contact@deerns.nl / +3188-3740220