5.3.- ENERGI TERBARUKAN

Energi terbarukan adalah sumber energi yang bersih, tidak terbatas, dan semakin kompetitif. Merupakan sumber energi yang didasarkan pada penggunaan sumber daya alam: matahari, angin, air atau tumbuhan atau hewan biomassa. Mereka berbeda dari bahan bakar fosil terutama dalam keanekaragaman, kelimpahannya dan berpotensi untuk digunakan di bagian mana pun di planet ini, tetapi terutama karena fakta bahwa mereka tidak menghasilkan gas rumah kaca.

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Berkat pengembangan energi terbarukan, adalah mungkin untuk memerangi perubahan iklim dan menghindari dampaknya yang menghancurkan. Pemanasan global akibat gas rumah kaca adalah fakta dan itulah mengapa salah satu tujuan yang ditetapkan oleh Perserikatan Bangsa-Bangsa adalah mencapai akses universal ke listrik pada tahun 2030.

Terdapat berbagai jenis energi terbarukan seperti energi angin, energi fotovoltaik, tenaga air, biomassa dan biogas, energi panas bumi, energi pasang surut, tenaga gelombang, bioetanol dan biodiesel.

Mengingat pentingnya energi terbarukan, keunggulan utamanya harus ditekankan: mereka tidak mengeluarkan gas rumah kaca, tidak habis-habisnya dan semakin murah, kurangi ketergantungan energi, dan memiliki cakrawala politik yang menguntungkan.

Karena perkembangan energi terbarukan dan kebutuhan untuk menciptakan sistem tenaga yang lebih efisien dan fleksibel, pembangkit yang terdesentralisasi menjadi semakin banyak populer. Inilah asal mula konsep Micro-Grids. Mereka adalah sistem pembangkit listrik dua arah, sebagian besar didasarkan pada energi terbarukan, yang mendistribusikan listrik dari berbagai titik pembangkit energi ke konsumen melalui teknologi digital dan mendukung integrasi terbarukan energi.

Berkat evolusi teknologi yang telah memunculkan energi terbarukan dan desentralisasinya, kendaraan listrik dapat diintegrasikan dalam masyarakat saat ini. Pada gilirannya, ini telah mengurangi gas rumah kaca (CO2) dan biaya secara signifikan serta meningkatkan keandalan sistem kelistrikan.

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ENERGI TERBARUKAN PERALATAN

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WIND ENERGY BASIC UNIT - MINI-EEE
  • MINI-EEE
Available
5.3.3.- ENERGI ANGIN

MINI-EEE

Peralatan Dasar Energi Angin

The Wind Energy Basic Unit, "MINI-EEE", is a small-scale unit designed to study wind energy and the influence of some factors on its generation.This unit consists of a transparent tunnel, a wind turbine with rotor to place up to six blades and a...
COMPUTER CONTROLLED WIND ENERGY BASIC UNIT - MINI-EEEC
  • MINI-EEEC
Available
5.3.3.- ENERGI ANGIN

MINI-EEEC

Peralatan Dasar Energi Angin, Dikendalikan dari Komputer (PC)

The Computer Controlled Wind Energy Basic Unit, "MINI-EEEC", has been designed by EDIBON to study wind energy and the influence of some factors on its generation.This unit consists of a transparent tunnel, a wind turbine with rotor to place up to...
WIND ENERGY DRIVE TRAIN ANALYSIS UNIT - WEDTA
  • WEDTA
Available
5.3.3.- ENERGI ANGIN

WEDTA

Peralatan Analisis Transmisi Energi Angin

The Wind Energy Drive Train Analysis Unit, "WEDTA", designed by EDIBON, allows students and professors to explore the operational characteristics of a wind turbine rotor under various wind conditions, thus optimizing the design and operation of...
COMPUTER CONTROLLED TIDAL ENERGY UNIT - EMMC
  • EMMC
Available
5.3.4.- ENERGI LAUT

EMMC

Peralatan Energi Ombak, Dikendalikan dari Komputer (PC)

Tidal energy is another way to generate electricity extracting energy from the sea. Twice a day big volumes of water rise and fall with the tides.A Tidal Barrage make use of the potential energy in the difference in height (or head) between high...
GEOTHERMAL (HIGH ENTHALPY) ENERGY UNIT - EG6B
  • EG6B
Available
5.3.5.- ENERGI GEOTHERMAL

EG6B

Peralatan Energi Geotermal (entropi tinggi)

The Geothermal (high enthalpy) Energy Unit, "EG6B", developed by EDIBON, has the aim of introducing the student in a renewable energy, increasingly important.This unit simulates the steam produced in the well, by using a steam generator. Then the...
GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT - EG5B
  • EG5B
Available
5.3.5.- ENERGI GEOTHERMAL

EG5B

Peralatan Energi Geotermal (entropi rendah)

The Geothermal (low enthalpy) Energy Unit, "EG5B", designed by EDIBON, consists of a cooling circuit, a small tank with pipes covered with water (bath) and a chilling unit (heat pump). The inside of the earth is simulated with them. There is...
COMPUTER CONTROLLED HYDROELECTRIC POWER PLANT WITH PELTON TURBINE - HPPP
  • HPPP
Available
5.3.6.- ENERGI HIDROLIK

HPPP

Pembangkit Listrik Hidroelektrik dengan Turbin Pelton

The Computer Controlled Hydroelectric Power Plant with Pelton Turbine, "HPPP," has been designed by EDIBON to investigate and study the operation of hydroelectric power plants based on Pelton turbines. It also allows for the analysis of the...
COMPUTER CONTROLLED HYDROELECTRIC POWER PLANT WITH FRANCIS TURBINE - HPPF
  • HPPF
Available
5.3.6.- ENERGI HIDROLIK

HPPF

Pembangkit Listrik Hidroelektrik dengan Turbin Francis

EDIBON introduces the Computer Controlled Hydroelectric Power Plant with Francis Turbine, "HPPF," meticulously designed to explore the functionality of hydroelectric power plants based on Francis turbines.This unit not only facilitates the...
PUMPING STORAGE POWER PLANT APPLICATION, WITH SCADA - AEL-GAD-01S
  • AEL-GAD-01S
Available
5.3.6.- ENERGI HIDROLIK

AEL-GAD-01S

Aplikasi Pembangkit Listrik Tenaga Pompa, dengan SCADA

The Pumping Storage Power Plant Application, with SCADA, "AEL-GAD-01S", has been developed by Edibon to study the pumped storage power stations and their applications. Pumping Storage Power Plants Applications are a type of hydroelectric energy...
COMPUTER CONTROLLED PELTON TURBINE - TPC
  • TPC
Available
5.3.6.- ENERGI HIDROLIK

TPC

Turbin Pelton, Dikendalikan dari Komputer (PC)

The Computer Controlled Pelton Turbine, "TPC", designed by EDIBON, consists of a small-scale Pelton turbine, with a valve that allows the flow to be regulated. The turbine includes a PELTON runner with 16 buckets, which can be clearly seen through...
COMPUTER CONTROLLED FRANCIS TURBINE - TFC
  • TFC
Available
5.3.6.- ENERGI HIDROLIK

TFC

Turbin Francis, Dikendalikan dari Komputer (PC)

The Computer Controlled Francis Turbine, "TFC", consists of a small-scale Francis Turbine, with a valve that allows flow regulation and has a ring with adjustable guide vanes that allows control of the angle of incidence of the water in the...
COMPUTER CONTROLLED KAPLAN TURBINE - TKC
  • TKC
Available
5.3.6.- ENERGI HIDROLIK

TKC

Turbin Kaplan, Dikendalikan dari Komputer (PC)

The Computer Controlled Kaplan Turbine, "TKC", consists of a small-scale Kaplan turbine that has a ring with adjustable guide vanes, which allow the control of water flow in the turbine.In order to raise the fluid, it has a computer controlled...
COMPUTER CONTROLLED RADIAL FLOW TURBINE - TFRC
  • TFRC
Available
5.3.6.- ENERGI HIDROLIK

TFRC

Turbin Aliran Radial, Dikendalikan dari Komputer (PC)

The Computer Controlled Radial Flow Turbine, "TFRC", consists of a small-scale radial flow turbine with two nozzles at 90 degrees to the perpendicular direction of the axis of rotation.In order to raise the fluid, it has a computer controlled pump...
COMPUTER CONTROLLED AXIAL FLOW TURBINE - TFAC
  • TFAC
Available
5.3.6.- ENERGI HIDROLIK

TFAC

Turbin Aliran Aksial, Dikendalikan dari Komputer (PC)

The Computer Controlled Axial Flow Turbine, "TFAC", consists of a small-scale turbine with single-stage axial flow input. It has eight nozzles that act as water rings to the rotor, four of which have an incidence angle of 20º and the other four of...
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