Enerzip SD2000D5 Data Center Generator Set Project in Indonesia
2×1600kW Open Type Standby Generator Sets with ATS and Paralleling System
For data centers, backup power is not optional. It is part of the core infrastructure that protects uptime, IT equipment, and business continuity. In this type of project, selecting a generator is not only about power rating—it is about how the engine, alternator, control system, ATS, and paralleling logic work together under real emergency conditions.
This article introduces a recent Enerzip project for an Indonesian customer: two 1600kW / 2000kVA diesel generator sets configured as an Open Type Generator Set solution for a data center standby application. The generator set model is SD2000D5, powered by the latest SDEC engine platform specified by the project, and delivered together with an ATS system and paralleling distribution system.
For buyers, EPC teams, and consulting engineers, this project is a useful reference because it shows a practical, high-capacity Standby Generator Set configuration designed for a real Data Center Generator Set application—balancing performance, control integration, and project budget.
Project Summary
Enerzip completed production for an Indonesian customer requiring a reliable standby power package for a data center facility. The order includes:
Quantity: 2 generator sets
Model: Enerzip SD2000D5
Rated output (per unit): 1600kW / 2000kVA
Fuel type: Diesel
Frequency: 50Hz
Configuration type: Open Type Generator Set
Application: Data center standby backup power
Integrated systems: ATS system + power distribution/paralleling system
This is not just a single-machine delivery. It is a system-based solution for critical backup power. In data center applications, the generator set must coordinate with transfer and distribution equipment to achieve a safe and stable sequence during utility failure and utility restoration.
That is why the project scope includes both the generator sets and the related control/distribution architecture.
What SD2000D5 Means
Enerzip uses a clear model naming method to help customers identify the engine platform, power class, fuel type, and frequency standard.
SD2000D5 =
SD = SDEC engine platform
2000 = 2000kVA class
D = Diesel version
5 = 50Hz version
So, SD2000D5 refers to a 2000kVA diesel generator set, 50Hz, built by Enerzip using an SDEC engine platform.
This model coding is especially useful in international projects where buyers need to manage multiple configurations across different voltages and frequencies. It also helps avoid confusion between 50Hz and 60Hz equipment during documentation review and procurement.
Why This Project Uses an Open Type Generator Set
For this Indonesian project, the customer selected an Open Type Generator Set configuration. This is a common and practical choice for data center projects where the generator installation is planned inside a dedicated generator room or mechanical power plant area.
An Open Type Generator Set can be the right solution when the site already includes project-specific:
Generator room ventilation design
Exhaust duct routing
Acoustic treatment
Fuel piping and safety layout
Fire suppression and alarm systems
Cable trench / busbar interface
Service and maintenance access paths
Advantages of Open Type Generator Set for Engineered Indoor Projects
1) Better Room-Level Integration
Data center generator rooms are usually engineered by MEP consultants and EPC contractors. An open-frame diesel genset is easier to integrate into a customized building layout than a one-size-fits-all enclosure.
2) Easier Maintenance Access
For large 2000kVA-class units, service clearance is important. The open configuration provides direct access to:
Engine-side maintenance points
Control wiring and sensors
Fuel and cooling system connections
Alternator inspection points
This can reduce maintenance time and improve service efficiency over the life of the Standby Generator Set.
3) Budget Efficiency for Indoor Sites
If the unit is installed indoors and the room already handles weather and noise control, an enclosure may not be necessary. Choosing an Open Type Generator Set can improve overall project value by allocating budget to electrical and control system integration instead of a canopy.
For this reason, the open type configuration remains a strong option for many professional Data Center Generator Set projects.
Engine Platform Used: SDEC 12KTA58-G34
The core engine selected for this project is the SDEC 12KTA58-G34, a high-capacity diesel engine platform suitable for large standby applications.
Engine Information (Project-Specified)
Engine model: 12KTA58-G34
Engine type: 12-cylinder diesel engine
Platform: KTA platform
Displacement: 58L
Governor type: ECU (electronic speed governor)
Engine serial no. (masked): K9261*103
Note: The full engine serial number is recorded in Enerzip’s internal project documentation and after-sales records. It is partially masked here for customer and equipment security.
Why This Engine Fits a Standby Data Center Application
Large Displacement and Power Reserve
A 58L engine platform is designed for serious power output and operating stability. In a Standby Generator Set for critical backup, engine reserve and response behavior matter more than just the nameplate number.
12-Cylinder Configuration
A 12-cylinder engine in this power class supports smooth operation and strong torque delivery, especially when matched with the right alternator and control logic.
ECU Speed Governor
This project uses an ECU governor, which improves speed regulation and frequency stability under changing load conditions. For a Data Center Generator Set, control precision is important because transfer performance and downstream load behavior depend on stable voltage and frequency.
Cost-Performance Balance
This project was selected as a high-value solution—designed to meet real backup power needs while maintaining a competitive CAPEX level. In many markets, buyers want a solution that is engineered and reliable, but still cost-effective compared with higher-tier premium options. The SD2000D5 configuration addresses that demand.
System Scope: Data Center Generator Set + ATS + Paralleling Distribution
A data center backup project should be treated as a complete electrical system, not just a generator purchase.
In this project, Enerzip supplied the generator sets together with:
ATS system
Paralleling / distribution system
This matters because the generator and control systems must follow a defined operating sequence during a grid outage.
Typical Standby Sequence for a Data Center Backup System
Utility failure detected
Start command sent to generator sets
Generator sets accelerate and stabilize
Voltage and frequency verified
ATS transfers load when conditions are acceptable
Paralleling controls manage load sharing between units
Utility returns and stabilization check
Return transfer and cool-down sequence
If any part of this logic is poorly integrated, the result can be nuisance trips, delayed transfer, unstable load sharing, or commissioning delays. That is why system coordination is a key part of a true Data Center Generator Set solution.
ATS System Role
The ATS (Automatic Transfer Switch) is the switching interface between utility power and generator power. In a critical standby installation, the ATS must only transfer the load when generator output is stable and within the acceptable window.
Enerzip’s system-level approach helps ensure that the generator controls, ATS signals, and sequencing logic are aligned for reliable transfer behavior.
Paralleling and Power Distribution Role
Because the project uses two 1600kW units, a parallel control and distribution system is essential. It enables:
Load sharing between the two generator sets
System redundancy and operational flexibility
Better staging of backup capacity
More practical maintenance planning
Improved resilience for critical loads
For many data center clients, a multi-unit standby architecture is preferred over a single large unit because it offers better operational options and maintenance planning.
Technical Snapshot
The table below summarizes the key project data for buyers, engineers, and procurement teams reviewing this case.
| Item | Project Data |
|---|---|
| Brand | Enerzip |
| Project Location | Indonesia |
| Application | Data center standby backup power |
| Generator Set Type | Open Type Generator Set |
| Generator Set Model | SD2000D5 |
| Quantity | 2 units |
| Rated Output (per unit) | 1600kW / 2000kVA |
| Frequency | 50Hz |
| Fuel | Diesel |
| Engine Brand | SDEC |
| Engine Model | 12KTA58-G34 |
| Engine Configuration | 12-cylinder, KTA platform |
| Displacement | 58L |
| Governor | ECU electronic governor |
| Engine Serial (masked) | K9261*****103 |
| Integrated Systems | ATS system + paralleling/distribution system |
| Warranty | 1 year or 1500 operating hours (global warranty) |
| Service Responsibility | Whole genset service by Enerzip |
Project note: Additional site-specific parameters such as voltage, alternator brand, control panel model, ATS capacity, and final cable interface are typically confirmed in the approved technical submission and commissioning package. To keep this case article customer-safe and concise, only core project data is shown here.
Why This Configuration Works for Data Center Standby Power
This project is a good example of how a Standby Generator Set should be selected and delivered for a real data center application.
1) Correct Power Class for Critical Backup
At 1600kW / 2000kVA per unit, the SD2000D5 provides substantial standby capacity. With two units and a paralleling system, the installation supports stronger backup strategy design than a single-unit arrangement.
2) Engine Platform + Control Logic Matching
The SDEC 12KTA58-G34 platform, combined with an ECU governor and project-level control integration, provides a practical balance of output capability and control quality.
3) Open Type Layout for Generator Room Installation
Because the project uses an indoor generator room approach, the Open Type Generator Set configuration improves installation flexibility and maintenance access.
4) ATS and Paralleling Included in the Solution Scope
This is one of the most important points. Many supply issues happen when the generator, ATS, and parallel controls come from different vendors with unclear interface responsibility. Enerzip's integrated delivery approach helps reduce those risks.
5) Practical Cost-Performance
This project was selected as a high-value Data Center Generator Set solution. It is designed to meet backup performance requirements while keeping the total project cost under control.
Manufacturing, FAT, and Delivery Documentation
To make a project article more credible for buyers and more aligned with Google’s quality expectations, it helps to show how the project was actually produced and verified.
Below is a recommended structure. You can publish it now and add real images/screenshots from your project file.
A) Production / Assembly Photos
B) ATS / Paralleling Panel Photos
Caption example: Paralleling and distribution control system for two 1600kW Enerzip generator sets.
C) FAT or Test Records
Voltage stability screen
Frequency reading
Synchronization test screenshot
Controller event log (with customer info hidden)
Data Center Standby Design Considerations
For engineers and purchasing teams planning a Data Center Generator Set, this case also highlights several practical checklist items:
1) Confirm the Operating Mode
Always define whether the rating is intended for:
Standby (ESP)
Prime (PRP)
Continuous operation
For data center backup, the system is usually configured as a Standby Generator Set, but the exact rating and usage profile should be confirmed in the project specification.
2) Define the Transfer and Control Strategy
Do not treat ATS and generator controls as separate decisions. The transfer timing and control logic should be agreed in advance, especially in multi-unit systems.
3) Plan Generator Room Interfaces Early
If you choose an Open Type Generator Set, confirm:
Ventilation airflow and pressure drop
Exhaust backpressure limits
Fuel system routing
Maintenance clearance
Cable/busbar entry direction
Fire and safety integration
4) Clarify Service Responsibility
For critical projects, it is better to have one integrated supplier responsible for the complete generator set package and support coordination. This reduces the risk of interface disputes later.
Enerzip follows this approach by providing whole-set service for the generator package supplied.
Warranty and Service: Whole-Set Support by Enerzip
For international backup power projects, after-sales service is as important as initial equipment specification.
For this Indonesia project, Enerzip provides:
Global warranty: 1 year or 1500 operating hours
Whole-set service support by Enerzip
This means the customer has a clear service contact and a defined support path for the generator set package supplied by Enerzip. In real projects, this helps reduce confusion and speeds up troubleshooting if support is needed after commissioning.
For overseas users, a clear service structure is often a deciding factor when selecting a Standby Generator Set supplier.
Why This Case Matters for Buyers Comparing Generator Options
Many buyers searching for a Data Center Generator Set or large Standby Generator Set are comparing multiple engine platforms and suppliers. This case is useful because it shows a real project example with clear technical identifiers:
Actual delivered model: SD2000D5
Actual engine platform: SDEC 12KTA58-G34
Actual application: Indonesia data center standby power
Actual system scope: ATS + paralleling included
Actual support terms: 1 year / 1500 hours warranty by Enerzip
This is the type of project-level information that helps buyers make practical decisions. Instead of only looking at a catalog rating, they can see how a complete solution is configured for a mission-critical application.
Conclusion
The Enerzip SD2000D5 project for Indonesia demonstrates how a properly configured Open Type Generator Set can serve as a high-capacity, cost-effective Data Center Generator Set and Standby Generator Set solution.
By combining:
2×1600kW / 2000kVA output
SDEC 12KTA58-G34 (12-cylinder, 58L) engine platform
ECU governor control
ATS system integration
Paralleling and power distribution system
Whole-set service by Enerzip
…the project delivers a practical backup power architecture for critical facility operation.
For customers planning data center, telecom, industrial, or other mission-critical backup systems, Enerzip can support the engineering and supply process with a system-focused approach—not only a generator nameplate.
Call to Action
If you are planning a Data Center Generator Set project or need a large-capacity Standby Generator Set, Enerzip can help you evaluate the right configuration based on your site conditions and backup strategy.
Please send:
Required kW/kVA
Voltage and frequency
Application type (data center, hospital, plant, etc.)
Operating mode (Standby / Prime)
Site location and ambient conditions
ATS/paralleling requirements
Enerzip – Energizing Your World.
📩 info@enerzip.com
📩 enerzippower@gmail.com
📲 WhatsApp: +8619053602511
FAQ
1) What is the Enerzip SD2000D5 generator set?
SD2000D5 is an Enerzip diesel generator set model. “SD” indicates the SDEC engine platform, “2000” indicates the 2000kVA class, “D” means diesel, and “5” means 50Hz.
2) Is SD2000D5 suitable for data center backup power?
Yes. The SD2000D5 can be configured as a Data Center Generator Set for standby applications and integrated with ATS and paralleling systems.
3) Why was an Open Type Generator Set used in this project?
The customer selected an Open Type Generator Set because the installation was planned for an engineered indoor generator room, where ventilation, exhaust, and acoustics are handled at the site level.
4) What engine is used in this Indonesia project?
The project uses the SDEC 12KTA58-G34 diesel engine, a 12-cylinder engine with 58L displacement and ECU governor control.
5) Does Enerzip provide warranty and service?
Yes. For this project, Enerzip provides 1 year or 1500 operating hours global warranty and whole-set service support.
Author / Review / Content Source
Author: Enerzip Technical Marketing Team
Reviewed by: Enerzip Generator System Engineering Team
Content source: Internal production records and project delivery documentation (customer details partially withheld for confidentiality)
Article purpose: To share a real project reference for buyers evaluating data center standby generator solutions
Last updated: [20/02/2026]
Optional transparency line (if you want):
This article was drafted with AI assistance and reviewed by the Enerzip team based on internal project data before publication.
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