roadmap for smart street lighting - middleeastelectricity.com · information classification:...
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Information Classification: General
March 2019
Roadmap for
Smart Street LightingPéter SchwarczPrincipal Engineer
Special thanks for
Kata Hujber & Gabriella Zsivolafor their contributions
Information Classification: General
Designed for LED
SMART-ready
construction
Autonom smart
functions:
Dynadim
CLO
Tier1: Conversion from convetional
technology to Smart-ready LED
Features I&E Benefit
Built-in
telemanagement
enabled NEMA or SR
socket
+15% CAPEX
+ 0 % OPEX
40-50% Energy
Saving due to
LEDification
+10-15% saving
with preset dimming
and CLO functions
Information Classification: General
Telemanagement to
remotely control
metering
Readiness status report
and Lighting output
control by the operator
Dimming by real time
motion detection
Features I&E Benefit
LUCO (Power line or RF)
SECO
Communication unit
Management SW
+ 50-80% CAPEX
+ 25-45% OPEX
Equipped with Dynamic
Adaptive Control unit/
+80% CAPEX
+ 0% OPEX
Adjustable dimming profile
(vs preset)
Real-time metering
Optimized maintenance
Additional comfort
Upto 70% energy saving on
low traffic routes, 2-5 yrs
payback
Optimized light output by
object identification
(pedestrians & cars)
Tier2: Remote access or real time control of lighting
Information Classification: General
Baseline:
Actual OPEX of
current street
lighting
LEDification Lighting Controls
÷ Massive value impact
from LED by energy &
maintenance savings
÷ Long term value from
longer lifetime & lower
running costs
100%
35-40%
Additional energy
savings by complete
control over lighting
system
TIER1 TIER2
50%
Saving by
LED 50%
Lighting
only
OPEX
CAPEX
CAPEX
CAPEX
Exploring the Value Proposition 1/2
Saving by control
Information Classification: General
Project expectations
Create an intelligent lighting system and starting
point for a smart city.
Solution
1100 modern LED Spinellas, Navonas and SLBts
have been installed.
The fixtures can be controlled separately and
together via wireless mech network.
The result
The energy efficiency and long lifetime of the
TUNGSRAM LED luminaires reduce the energy
bill, as well as maintanance costs.
Case Study1:
Balatonakarattya, Hungary
Wireless lighting control
Information Classification: General
Case Study2:
Kaposvár, Hungary
PLC Lighting control
Solution
2300 modern LED Spinellas, have been
installed with eviromentally friendly
intelligent lighting system.
The fixtures can be controlled
separately and together via PowerLine
communication.
The energy efficiency and long lifetime of
the TUNGSRAM LED lamps reduce not
only the energy bill, but also the
maintanance costs.
Information Classification: General
Objectives
The aim of this project to
track the energy-saving
potential of montion-
controlled dimming in
streetlighting.
of the saving by LEDification.
This is due to the low level
traffic typical for residential
areas.
The solution
50+ LED lumianires were
installed with radar sensor
on each column. The
neibouring sensors are
linked, so the system can
predict the speed of the
object (pedestrian or car)
and adjust the lighting
accordingly.
The resultThe energy consumption
of the fixtures is trackable.
It delivers 40% additional
savings on the top of the
saving by LEDification. This
is due to the low level
traffic typical for residential
areas.
Case Study3: Szentendre, Hungary
Dynamic control by movement sensors
Information Classification: General
✓Controlled LED lighting adds safety and comfort urban environment
✓Well-established technology, hundreds of references✓Proven ROI✓ESCO finance model is avaialble✓Lighting quality is accarding to the standards✓Future-proof✓Very visible (!), easy to communicate
✓A better quality of life for citizens and visitors
✓Reduced accident rates✓ Improved security
✓Reliable track of assets
* Source: Tungsram projects’ experience
Opportunities learnt from Tier1&2 projects
Information Classification: General
Over-specification of productso 120-277V driver for a 230V network
o Solution: 220-240V driver with MainsGuard featureo 0-10V control offers one-way communication, only
o Solution: DALI drivero Zhaga socket does not offer access to the mains
o Solution: 7-pin NEMA socketo LM-84 is useless due to measurement uncertaintity
o Solution: LM-80 and TM-21o Useful life claims over 100.000 hrs has no practical benefit
o Solution: Limit life-time claims according toapplications, but not more than 100,000 hrs
o Overestimation of energy-savingo Public rejection of dimming (especially dynamic)o The condition of the current infrastrucure as previewedo Delay of projects
* Source: Tungsram projects’ experience
Risks learnt from Tier1&2 projects
Information Classification: General
Plug&Play lighting
fixture and pole
Hosting services for
Security cameras
Parking management
Traffic management
Environmental sensors
E-mobility
WIFI
LIFI
Features I&E Benefit
„Rental” partnership
with service providers
• +100-1000%
CAPEX
• + 100-500% OPEX
Continuous income
via „Rental” fee
Additional++ value stream
from
• Space
• Power suply
• Bandwidth
• Maintenance
Tier3:
Apps Economy
Information Classification: General
Extended Services beyond
lighting
Built-in and service
provider
• Security cameras
• Parking management
• Traffic management
• Environmental sensors
• Support autonomous
driving
• E-mobility
• WIFI
• LIFI
Features I&E Benefit
Service partnership
with end-users
• +100-10000%
CAPEX
• + 100-1000%
OPEX
City well-being
Continuous Additional++++
value stream from
• Crime reduction
• Higher infrastructure
utilization (carparks,
roads)
• Reduced CO2
emission
• Early alerts of
abnormal conditions
• …
Tier4:
Built-in Intelligence
beyond lighting
Information Classification: General
Revenue streams from
extended services:
- better parking enforcement
- traffic management
- weather prediction
- CCTV
- Wi-fi
- e-mobility
New, Data Revenue Stream needs to be established
Revenue stream from apps hosting
at lighting points:
- Protected space
- Power supply
- Data transmission
Upto
500%
Upto
1000%
Exploring the Value Proposition 2/2 Beyond
lighting
OPEX
CAPEX Hosting
services
TIER3
City
wellness
TIER4
Information Classification: General
Goals
• Improve the city’s
attractiveness to citizens &
businesses by adding effective
& innovative services
• Enable better decision
making through the use of
data for all stake holders:
government, business &
residents
• Provide better quality of life:
healthier & happier citizens
Benefits
• A better quality of life for citizens and
visitors
• Economic competitiveness to attract
industry and business companies
• An environmentally and economical
conscious focus on sustainability
• A more efficient and responsive city that
delivers better outcomes:
• 30-40% fewer crime incidents
• 8-15% lower disease buder
• 15-30 mins less daily commute
• 25-80 liters of water saved per person
per day
• 20-35% faster emergency response
Smart Cities add digital intelligence to existing urban systems,
making it possible to do more with less*
* Source: McKinsey Global Institute
Smart City goals & benefits
Information Classification: General
A smart city is has to be a system of intelligent applications that
cooperate,
exchange information
support the city as a whole to be a more competitive
innovative settlement based on sustainable development.
Phase 1 –
6 months+
Phase 2 –
12 months+
Phase 3 –
18 months+
Develop smart
city concept
Implement
subsystems
Smart &
connected city
Phase 0 – available
Now
LEDification
Creating Smart City & connected regions
from conception to implementation step
by step - modularity
Information Classification: General
Phase 1 –
6 months+
Phase 2 –
12 months+
Phase 3 –
18 months+
Phase 0 –
available Now
LEDification:
• Smart ready LED
solutions
• Harvest energy
saving
Map stake-holders for
projects definition
Information Classification: General
Phase 1 –
6 months+
Phase 2 –
12 months+
Phase 3 –
18 months+
Develop smart city
concept:
• focusing on the local
features, challenges
& capabilities
• Prioritize the
development
projects defining
the modules by
driver aspects
Phase 0 –
available Now
Information Classification: General
Phase 1 –
6 months+
Phase 2 –
12 months+
Phase 3 –
18 months+
Implement
subsystems:
• smart city dashboard
with existing data
• Smart building
solutions
• Smart parking, smart
bus stop
Map the local
company capabilities
for projects support
Phase 0 –
available Now
Information Classification: General
Phase 1 –
6 months+
Phase 2 –
12 months+
Phase 3 –
18 months+
Smart & connected
city:
• Smart lighting
solutions
• Smart traffic
monitoring & analytics
• Smart public
transport
• Develop further the
smart city dashboard
with new solutions
data
Phase 0 –
available Now
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