Energy Conservation Evaluation through Energy Audit at Building

on Green Campus of Universitas Negeri Semarang: Case Study on

Prof. Dr. Retno Sriningsih Satmoko Building

Sunardiyo Said

1,2

, Purwanto

1,3

and Hermawan

1,2

Doctoral Program of Environmental Science School of Postgraduate Studies Diponegoro University Semarang Indonesia

Department of Electrical Engineering Faculty of Engineering Semarang State University Semarang Indonesia

Department of Chemical Engineering Faculty of Engineering Diponegoro University Semarang Indonesia

Keywords: Energy Consumption, Energy Audit, Green Campus.

Abstract: The high consumption of electrical energy in the college of higher education, making the greater effort to do

energy conservation in the campus environment. For that campus undertake a program of decreasing electrical

energy consumption through energy management program, where one of them is energy audit. Energy audit

conducted in this research is an energy audit in building Research Institute and Community Service / Prof.

Dr. Retno Sriningsih Satmoko building of Universitas Negeri Semarang. The energy audit starts with the

collection and processing of historical data on building energy consumption, then calculates the Energy Usage

Intensity (EUI). The number of rooms in the Prof. Dr. Retno Srininsih Satmoko Building which EUI value

into the wasteful category as much as 12 rooms, with the result of energy savings opportunities obtained for

IDR. 65.200.882. Based on measurements of Prof. Dr. Retno Sriningsih Satmoko building air governance in

the comfort category. Energy audit results need to be followed up by university managers to conserve energy.

1 INTRODUCTION

The reduction of energy consumption in green

campus is a priority. This is linked to the high costs

that the university pays. On the other hand, it is the

responsibility of the college of higher education as a

pioneer of sustainable environment to answer the

challenges of global warming. The UI Green Metric

ranking provides a requirement for participants to

comply with the Energy and Climate Change criteria,

in which there are indicators of the application of

energy efficiency and electrical indicators used in

years (UIGM, 2017). Hongwei Tan, et. al (2014)

conclude that development of energy and resource

efficient campus has been expanded in a large scale

in China, mainly aiming at the energy efficient

technology application and campus energy

management, and all these initiatives are strongly

promoted by the national government with policy

support and financial funding. Building Prof. Dr.

Retno Sriningsih Satmoko is a building has a high

enough activity because as a place of administrative

center of research activities and community service.

All teachers often visit this place therefore need a safe

and convenient service. Building electrical appliances

work in full ie lighting, air conditioner, photocopy

machine, LCD projector, computer, water pump, and

others. Prof. Dr. Retno Sriningsih Satmoko building

has a building area of 6000 m2 consists of 3 floors

each of which has an area of 2000 m2 per floor. In

electric system have dual power that is electricity

from PLN and 2 Genset as electricity reserve when

there is blackout Genset have capacity of 400 KVA

and 200 KVA per generator and capacity of MCB 315

A. Electrical system from PLN that supply tariff of

S3K with power installed 1385 KVA and Trafindo

transformer capacity of 1000 KVA. The building's

transportation system utilizes lifts and ladders. For

Elevator that serves as emergency when power

outages, lift disupplay electric power from 8 pieces

accumulator 14.9 v / acumulator. In the irrigation

system (water pump) has 3 pumps with different

types, first, the submersible pump '' Grudfos” pump

with a power capacity of 1.5 KW which serves as a

water pump from a large scale water storage tub to the

building tandon. Second, 2 pumps type Deepwell

Pump 'Grudfos' 1.1 KW which serves as a water

pumper from the well to the tandon of large-scale

Said, S., Purwanto, . and Hermawan, .

Energy Conservation Evaluation through Energy Audit at Building on Green Campus of Universitas Negeri Semarang: Case Study on Prof. Dr. Retno Sriningsih Satmoko Building.

DOI: 10.5220/0009011203490353

In Proceedings of the 7th Engineering International Conference on Education, Concept and Application on Green Technology (EIC 2018), pages 349-353

ISBN: 978-989-758-411-4

349

water storage. Also has a solar panel system with 6

pieces of solar panel outside the building size 40 cm

x 30 cm. There are 8 accumulators (batteries) with

storage capacity 200 Ah / 12 V per accumulator

(battery). 1 Inverter DC-AC with a voltage of 48 V.

There is a system of fire extinguisher (free hydrant),

Air conditioning system (air conditioning), CCTV

(Close Circuit Television) and the central telephone.

Figure 1: Location of the Prof. Dr. Retno Sriningsih

Satmoko building.

Figure 2. Front look of Prof. Dr. Retno Sriningsih Satmoko

Building.

2 METHODS

This research is designed using a "research and

development" approach that is a program that begins

a research needs analysis, then developed a

development program and test its effectiveness

(Sugiyono, 2006). The method of collecting data uses

the following techniques: a. Observation technique

used to take (1) PLN electricity bill data, (2) total

building area, and (3) building specifications. b.

Direct Measurement Technique, will be used in

retrieving data through measurement of illumination,

temperature, humidity, voltage, current, and

electrical power in each building panel on the RST

phase.

3 RESULT

Table 1: SpEUIfication of the building.

a. Building name

Prof. Dr. Retno Sriningsih

Satmoko

b. Building area

First floor = 2000 m

Second floor = 2000 m

Third floor = 2000 m

c. Number of floors 3

d. Brand Trafo Trafindo

e. Voltage 220-380 V

f. Trafo Capacity 1000 KVA

g. Genset (backup) 200 KVA / MCB 315 A

h. Power 1385

i. ID. Customer 523530250393

. rate Group S3K

Table 2: Energy Consumption per month 2017.

Month

Number of

Electricity (kWh)

January 16.294

February 18.816

March 12.176

April 17.888

May 15.584

Juny 11.440

July 17.136

August 13.504

September 10.768

October 18.608

November 15.616

December 18.868

Total 186.694

Table 3: Daily electrical load (KWh).

Measurement Time

Day 07.00-18.00 11.00-12.00 14.30-15.30

Monday 16,401 19,520 16,621

Tuesday 17,641 20,298 17,555

Wednesday 18,994 22,215 14,808

Thursday 17,878 21,332 12,571

Friday 12,604 18,409 16,004

EIC 2018 - The 7th Engineering International Conference (EIC), Engineering International Conference on Education, Concept and

Application on Green Technology

350

Figure 3: Daily electrical load.

Table 1 shows the SpEUIfication of the building.

Energy Consumption per month in 2017 is appeared

in Table 2. Table 3, shows that the largest average use

of energy during the day due to high work activity and

the use of electrical equipment to the maximum.

The results of the measurement of the intensity of

energy consumption in Prof. Dr. Retno Sriningsih

Satmoko building shows that there are 12 rooms of 38

rooms which are wasteful of electric energy

consumption so it is important that the AC energy

efficiency program is to replace the old air conditioner

with environmentally friendly AC inverter, room

temperature setting and life time regulation.

Measurement of the strong level of illumination in each

room of Prof. Dr. Retno Sriningsih Satmoko building

done at 7.00-16.00 hours (working hours) is described

as follows Figure 3.

Seen that most of the room there is less and there

is more than the strong standard of illumination SNI

6197: 2011.

From the measurement of Prof. Dr. Retno

Sriningsih Satmoko building temperature, it is known

that the average temperature and humidity in the air

system is temperature + 28

C and humidity + 73 %.

In SNI 6390: 2011 for highland or mountain areas

with an average maximum air temperature of about

C DB and 24

C WB or less (or an average

temperature of 23

C or less), generally no artificial

air conditioning is required. Means that the air system

in the Prof. Dr. Retno Sriningsih Satmoko building is

not needed artificial air conditioning because it is

included in the highland or mountainous areas, the

achievement of thermal comfort and the availability

of clean air is entirely charged to the optimization of

the architecture design passively.

To determine the potential energy savings

opportunities that can be applied to a room that is not

categorized as efficient in using electricity, then the

difference in EUI value calculated with the standard

EUI value must first be calculated. To calculate the

energy saving opportunities that can be applied to a

room can be used the following that is:

Energy Saving opportunities = EUI x total area of

space x electricity rates divided by 12 months

The electricity tariff used to calculate the energy

savings opportunities in this study is adjusted with

the basic electricity tariff the Prof. Dr. Retno

Sriningsih Satmoko building is Rp. 16,168,-. The

following table will show the calculation of EUI and

energy saving opportunities in each room of Prof. Dr.

Retno Sriningsih Satmoko building. The efficient

EUI standard for air-conditioned buildings is 7.93

KWh / m

/month whereas the efficient EUI Standard

building is not air conditioned ie 0.84 KWh / m

month. Energy savings opportunities of LP2M

building are presented in the following Table 5.

Table 5: Results of calculate saving opportunities Prof. Dr.

Retno Sriningsih Satmoko building.

No Room

Calculation energy saving

opportuities

Results IDR

Conservation

Office (CO)

(34,76-7,93)*48*16168 20.821.797

2 Head of CO (34,42-7,93)*9*16168 3854612

3 Staff PBB (6,25-0,84)*61,7*16168 5.396.830

4 FKPMN (22,07-7,93)*30*16168 6.858.465

5 Head of KKN (21,15-7,93)*16,5*16168 3.526.725

6 R. Admin (12,44-0,84)*7,5*16168 1.406.616

7 R. Sek. BPM (16,35-7,93)*18*16168 2.450.422

8 R. Conference (16,35-7,93)*13,5*16168 1.837.816

9 Guest BPM (4,82-0,84)*13,5*16168 868.706

R. Penjamin

Mutu

(51,64-7,93)*17,5*16168 12.367.307

Head Office

Admin

(22,12-7,93)*15*16168 3.441.358

12 R. 307 (22,59-7,93)*10*16168

2.370.222

4 CONCLUSIONS

The result of EUI calculation was found in Prof. Dr.

Retno Sriningsih Satmoko building EUI value 31,65

KWh / m2 / year while for EUI value standard equal

to 240 KWh / m2 / year hence building of Prof. Dr.

Retno Sriningsih Satmoko buildings into the category

of efficients buildings

The number of 38 Prof. Dr. Retno Sriningsih

Satmoko building rooms that were evaluated was 26

rooms which were categorized as efficient while there

were still 12 rooms that were not in the efficient

category. The number of rooms in the Prof. Dr. Retno

5.000

10.000

15.000

20.000

25.000

dailyelectricalload(kWh)

07.00‐08.00

11.00‐12.00

14.30‐15.30

Energy Conservation Evaluation through Energy Audit at Building on Green Campus of Universitas Negeri Semarang: Case Study on Prof.

Dr. Retno Sriningsih Satmoko Building

351

Sriningsih Satmoko Building which EUI value into

the extravagant category as much as 12 rooms, with

the result of energy savings opportunities obtained for

IDR 65.200.882,-.The energy audit of a building can

be a strategic step for energy efficiency and

conservation. The lower consumption of electrical

energy will reduce greenhouse emissions so

environmentally friendly. Energy audits in the Prof.

Dr. Retno Sriningsih Satmoko building can

contribute to a sustainable university, especially

providing a good value for the UI green metric

ranking for universities.

REFERENCES

ASEAN-USAID.1992. Building Energy Conservation

Project. ASEAN-LAWRENCE Barkeley Laboratory

Badan Standarisasi Nasional. 2011. Prosedure Audit

Energi pada Bangunan Gedung, Konservasi Energi

Sistem Tata Udara pada Bangunan Gedung dan

Konservasi Energi Sistem Pencahayaan Bangunan

Gedung (SNI 6196: 2011., SNI 6390:2011., SNI

6197:2011)

EECHI, 2011. Efisiensi dan Konservasi Energi di

Indonesia, Direktorat Jenederal Energi Baru

Terbarukan dan Konservasi Energi Kementrian Energi

dan Sumber Daya Mineral RI. Jakarta

Hongwei Tan, Shuqin Chen, Qian Shi, Lingling Wang,

2014. Development of Green Campus in China. Journal

of Cleaner Production, Vol 64 (2014), pp 646-653)

M. Abdul Raqib. 2018. Audit dan Konservasi Energi Pada

Gedung H dan Gedung LP2M Unnes. Skripsi (tidak

dipublikasikan)

SNI 03-6390-2011. Konservasi Energi Sistem Tata Udara

Pada Bangunan Gedung.

SNI 03-6197-2000. Konservasi Energi Pada Sistem

Pencahayaan

UI GreenMetrik, 2017. Criteria & Indicator.

Greenmetric.ui.ac.id

APPENDIX

Figure 4: Result measurement level illumination each room of building.

100

200

300

400

500

600

700

levelofillumination

lux‐measurement lux‐standard

EIC 2018 - The 7th Engineering International Conference (EIC), Engineering International Conference on Education, Concept and

Application on Green Technology

352

Figure 5: Result measurement of the air system each room of building.

100

R.Konservasi

ToiletkananPr

Musholla1

R.StaffBPB

R.PusatKKN

R.Musholapusatkkn

R.GugusPengembanganJurnal

usaha

R.Pertemuan(BPM)

ToiletkananLK

R.Sek.BPM

R.ToiletBPM

R.PenjaminMutuLP2M

R.PanelLt.2

Masyarakat

Hidup

ToiletKananPr

R.309

ToiletKananLK

R.Transit

R.Borobudur

R.305

R.303

R.301

themeasurementresultoftheairsystem

temperaturoC

humidity%

Energy Conservation Evaluation through Energy Audit at Building on Green Campus of Universitas Negeri Semarang: Case Study on Prof.

Dr. Retno Sriningsih Satmoko Building

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