jarlsø e-site presentation

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DESCRIPTION

The E-site is an energy saving site solution designed to reduce the energy consumption of telecom BTS sites from 75%-95%.

TRANSCRIPT

E-site

Key advantages with the E-site solution

Complete turn-key solution for off-grid sites

• This fully complete solution includes tower, wind turbine,

solar panels, shelter, batteries, back-up diesel genset, cooling systems,

CW and installation of Diriflex control system.

Power efficient solution

• Extremely power efficient solution specially designed to

generate and use energy in an optimal way.

Low life-cycle cost

• The solution lower the OPEX costs compared to traditional diesel sites.

Intelligent control system

• Diriflex®, the intelligent control- and management system,

allows for optimized use of all energy resources.

One stop shop

• E-site® is provided by one supplier with full responsibility.

JARLSØ .

E-site, Site layout. Vara Sweden

Leading technology for Telecom Solutions

TeleE-site Case Study

This E-site case study is based on information from our Renewable Energy site solution in

Africa.

A vast amount of data and performance statistics has been derived from the real-time intelligent

control and management system, Diriflex® which is part of the E-site®. Presented below are the

main conclusions from a six month measuring period on a trial site with an average total power

requirement of 1.4 kW.

95 % Diesel Reduction

As shown below, the diesel generator has run only 250 hours in six months, which is 6 % of the

total operating hours. Assuming that the average wind will remain at the same level for the next

six months, the total diesel consumption will be less than 600 liters per year. Compared to a

diesel driven site consuming 2 liters/hour, this would mean a yearly diesel saving of about 16

700 liters, adding up to at a 95% diesel reduction.

E-site, Site layout. Vara Sweden

One yearly visit resulting in substantial

OPEX reduction

Diriflex® allows for remote site operation,

thus considerably reducing the need for site

visits. Together with the limited diesel genset

run hours, 250 hours during the 4 100 hour

measuring period, this means that the need

for fuelling and maintenance visits to site is

reduced to once annually(!). With off-grid

sites, like the one in this case study, being

very difficult and time-consuming to reach,

reducing the number of site visits has reduced

OPEX substantially

Renewable

94%

Genset 6%

Renewablening hours

Renewabl

es

E-site, Site layout. Vara Sweden

One yearly visit resulting in substantial OPEX

reduction. The average wind speed during the whole

period was 5.3 m/s at the wind turbine. This

corresponds to average wind speed of 3.8 m/s at 10

metres. These figures are derived from wind speed

measurements on site with adjustments for the actual

height of the wind turbine, which in this case is 60

metres. Note that the 5,5kW wind turbine is placed on

top of the telecom tower, which is a unique feature of

the E-site® compared to other renewable site

solutions.

Dirif

E-site, Site layout. Vara Swedend

0

200

400

600

800

1000

1200

Consumed power

Wind power

Solar power

E-site, Site layout. Vara Sweden

The chart above shows that in the first three months wind

conditions were very good with an average wind speed of 7.4

m/s at the wind turbine. This corresponds to 5.3 m/s at 10

metres. During this period wind power catered for 86% of the

total consumption. Solar power complemented with 11 % of

the site’s energy need. An important fact is that the Diriflex®

never started the diesel generator during the first two montIn

the seasonal low wind period, November to January, the

average wind speed at the wind turbine was 3.3 m/s, which

corresponds to 2.3 m/s at 10 metres. Even with this low wind

speed the wind power contributed with 24% of the total power

consumption and solar power complemented with 27%.

hs.

t

E-site, Site layout. Vara Sweden

Conclusions

During the six month measuring period the site has performed with excellent results. The diesel

generator did not start at all in the first two months and compared to a traditional diesel driven

site, diesel consumption has been reduced by staggering 95 %. Based on an integrated renewable

site solution where our technology know-how allows for the wind turbine to be placed at the top

of the tower or mast, the Diriflex control system has demonstrated its efficiency and superiority

in reducing site OPEX. Furthermore, by reducing the maintenance and fuel visits to once per

year, not only OPEX savings from the diesel reduction, but also the savings from avoiding

visiting sites in far away rural areas site will be considerable.

E-site, Site layout. Vara Sweden

DiriflexPresentation.

E-site, Diriflex Control

system, web interface

E-site, Simulations

E-site, Site layout. Vara Sweden

E-site, Site layout.

Main shelter, Solar

array, and Wind turbine

E-site, Site

footprint

E-site, Main

shelter

E-site, Battery Bank.

20pc 12V VRLA 1150Ah

E-site, Cooling

systems

E-site, Diriflex Control

system, HW

E-site, Electrical

single line diagram

E-site, Tower

and lifting

device

E-site, Wind

power. 6kW 5,6m

E-site, Genset. 5kW

Diesel generator, 48VDC

E-site, Solar power.

12 panels, 2400W

E-site, Genset shelter

E-site, Future.

46m Tower with 2pc

5,6m 6kW

windturbine

E-site, Future.

10m 10kW Windturbine

3m 1,55kW Windturbine

Contact information:

Lars Strømme

Jarlsø

Rambergv 3

3150 Tønsberg

Tel: +47 93019436

Fax: +47 33373801

E-mail: lars.stromme@jarlso.com

www.jarlso.com

E-site, Future.

Genset with Perkins

engine

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