For today’s continuously operating industrial facilities, healthcare institutions, data centers, and critical infrastructure projects, uninterrupted energy is not just a convenience—it is the guarantee of operational continuity. In these heavy conditions where power outages can result in catastrophe, the choice of a power solution is vital. In this context, the preferred choice of professionals seeking high reliability, robustness, and efficiency has always been Diesel Generator | New Power models. The durability and proven performance of diesel engines make them indispensable for the most demanding tasks. In this comprehensive guide, we will examine in detail the technological superiority of diesel generators, their areas of use, and the differentiating solutions offered by New Power in the sector.

Fundamental Information About Diesel Generators: The Anatomy of Durability

Diesel generators are integrated power systems consisting fundamentally of a diesel engine and an alternator (generator). Diesel engines operate at higher compression ratios than other internal combustion engines. This structure provides unique torque and efficiency by igniting the fuel via compression, rather than spark plugs. This physical superiority makes diesel generators ideal, especially for applications requiring high power capacity and needing to run at full load for extended periods.

Diesel generators can generally be produced in a wide power range, starting from 10 kVA and extending up to megawatt (MW) levels. This wide range offers the flexibility to meet every need, from a construction site’s instantaneous lighting requirement to the entire power backup of a large data center. Furthermore, the energy density of diesel fuel means longer operating time with less fuel. This makes them an unrivaled solution for long-term power outages. Diesel generators are more than just a simple backup power source; they are critical energy assets that can be actively used for purposes such as planned electricity grid maintenance or demand management (peak shaving).

Diesel Generator Details: Structural Strength and Engine Technology

The secret to the durability of diesel generators under heavy conditions lies in their engine architecture. Diesel engines are naturally built from more robust and heavy cast-iron blocks. This sturdy structure provides resistance against high compression forces and continuous vibrations, ensuring reliable operation for many years.

The Importance of Engine Cooling Systems

High power output means high heat generation. Diesel generators are typically equipped with water-based, closed-circuit cooling systems. These systems maintain the engine’s ideal operating temperature, preventing failures caused by overheating. Industrial-grade radiators and high-flow pumps allow the engine to run without performance degradation, even in the hottest climates or the most confined spaces. Regular maintenance of cooling systems is one of the most critical factors directly affecting the total lifespan of a diesel generator.

Fuel Supply and Filtration Sensitivity

Due to its nature, diesel fuel requires careful filtration. High-performance diesel generators use multi-stage filtration systems to maintain fuel quality and purify the injection system from particulate contamination. These systems protect the engine’s fuel efficiency and prevent clogging of sensitive injectors. Especially against fuel degradation that may occur after long-term storage, additional components like water separators and heated filters also increase system reliability.

Diesel Generator Features: Performance and Safety Standards

Diesel generators stand out not only for their robustness but also for their operational characteristics. Their high power density allows them to generate large amounts of energy in a small area. This is a significant advantage, especially for urban projects and mobile applications where space is limited.

Response Time to High Load Acceptance

In critical applications (such as operating theaters or data centers), the speed at which the generator kicks in when grid power is cut is vital. Diesel generators offer an excellent response time to fast starting and instantaneous high load acceptance (when high-energy-consuming equipment suddenly comes online). The alternator and AVR (Automatic Voltage Regulator) systems rapidly correct voltage and frequency fluctuations, guaranteeing a stable and quality power output for sensitive electronic equipment. This fast-response capability is the biggest operational superiority of diesel generators compared to gasoline or natural gas alternatives.

Long-Term Operating Capacity and Backup

Diesel generators are inherently suitable for continuous and long-term operation. Maintenance intervals are long, and uninterrupted operation can be sustained with simple routine checks. This feature means that critical facilities can be self-sufficient for hours, or even days, during natural disasters, long-term regional outages, or major planned grid maintenance. When supported by external fuel tanks, the autonomous operating time can be extended to near-limitless levels.

Diesel Generator Applications Under Heavy Conditions: Four Critical Examples

Diesel generators are an essential component across a wide range of sectors requiring high reliability and durability. Here are four detailed application examples:

1. Data Centers and Communication Infrastructure

Data centers are the heart of the modern economy. Even a single second of outage can lead to millions of dollars in losses. Therefore, data centers are subject to the world’s highest security and redundancy standards.

Continuous Backup in High Power Density

Large-scale data centers require hundreds, even thousands, of kilowatts of power. High-capacity systems like the Diesel Generator | New Power can meet this massive power need while also offering maximum power density in minimum space. Running generators in N+1 or 2N redundant configurations ensures that backup continues even if one generator unit fails.

Lag-Free Synchronization and Load Sharing

In large data centers, multiple generator units are often run in parallel (synchronized). This synchronization capability ensures that additional units come online seamlessly as power needs increase, and the load is distributed evenly among all units. This way, even sudden changes in power demand can be managed reliably.

2. Critical Healthcare Facilities and Hospitals

Hospitals and emergency services are environments that cannot tolerate power outages. Operating theaters, intensive care units (ICUs), and life support systems depend on uninterrupted power.

Instantaneous Transfer for Life Support Systems (ATS)

In hospitals, the generator must come online immediately via an Automatic Transfer Switch (ATS) when the grid cuts out, requiring a transfer speed of mere seconds. Diesel generators minimize this critical period due to their fast start-up times. This means that equipment during surgery or monitors in the ICU do not lose power.

Protection of the Medicine and Blood Bank Cold Chain

In hospitals, not only emergency equipment but also sensitive storage areas requiring a cold chain, such as medicines, vaccines, and blood products, require backup power. Diesel generators provide the continuous and stable power necessary for refrigerators and freezers, preventing the loss of millions of liras worth of stock.

3. Industrial Production Facilities and Factories

An unexpected power outage in production facilities can cause an entire production line to stop, raw materials to spoil, and lead to costly downtime.

High Starting Current and Industrial Loads

Large motors, pumps, presses, and CNC machines used in factories draw current well above their nominal power during initial start-up (inrush current). Due to their high torque and robust structure, diesel generators handle these instantaneous and heavy starting loads much more successfully than generators of other fuel types. This load acceptance capability guarantees that the production line can restart safely and without interruption.

Long-Term Operation and Fuel Management

Large production facilities often run 7/24 in multiple shifts. Diesel generators are ideal because they are designed to operate reliably for long periods. Supported by large external fuel tanks, they can provide uninterrupted power for days. Diesel Generator | New Power solutions are optimized to maintain maximum fuel efficiency even during these long operational periods.

4. Mining Sites and Construction Projects

Mining and large construction projects often take place in isolated and challenging geographies where grid electricity is unavailable. In these areas, generators are used as the primary, not backup, power source.

Mobility and Resistance to Severe Environmental Conditions

Mining sites are dusty, humid, and subject to varying temperatures. New Power’s Mobile Generator Purchase solutions provide full protection against these heavy environmental conditions thanks to specially designed robust chassis and protective enclosures. These units can be easily transported to different phases of the project and brought online instantly.

24/7 Operation with Lighting Towers

Ensuring safety during night shifts at large construction and mining sites is mandatory. Mobile generators often also power Lighting Tower systems, safely illuminating large areas and allowing operations to continue 24/7.

New Power Solutions and Models: Power Tailored to Need

The Diesel Generator | New Power brand offers specific solutions for every power requirement with its wide product range. Whether it’s a construction site, a hospital, or a residential project, selecting the right model maximizes operational efficiency.

Mobile Generator Purchasing Strategies

Mobile generators are the most in-demand models, especially in the rental and construction sectors. When making a Mobile Generator Purchase decision, attention should be paid not only to power capacity but also to the chassis structure suitable for road transport standards, weatherproof cabinet material, and quick refueling possibilities. New Power mobile generators are specially designed for easy transport and quick installation.

Silent Generator Models and Acoustic Cabinet Technology

Silent Generator models are indispensable in densely populated areas or noise-sensitive environments like hospitals. New Power maximizes sound insulation using advanced acoustic cabinet technology. These cabinets have air circulation systems optimized not to affect generator performance, thus offering both silence and optimum cooling. Sound levels are measured and documented in accordance with international standards.

Points to Consider in Cogeneration System Installation

Cogeneration is a smart system that increases total energy efficiency up to 90% by recovering waste heat generated during electricity production. The most critical stage in a Cogeneration system installation process is the accurate analysis of the facility’s heat and electricity load profiles. The system must not only meet current demand but also account for future growth potential. Diesel-based cogeneration systems offer high efficiency even in regions without natural gas infrastructure.

Portable Generator Prices and Usage Purposes

Portable Generators are ideal for lower power needs (typically between 1 kVA – 10 kVA) and short-term use. They are an economical solution for homes, small workshops, or caravans. Portable Generator prices vary based on the power they offer, fuel type, and brand reliability. New Power also offers long-lasting and user-friendly models in this segment, keeping the price-performance balance at the highest level.

Generator Services and Economical Solutions: New Power Assurance

A generator is not just a machine; it is a part of your continuous operational security. Therefore, after-sales services and economical solutions are just as important as the product itself.

Generator Rental Prices and Flexibility

For short-term projects, seasonal work, or emergency tests, Generator rental prices are much more advantageous compared to the cost of purchase. New Power offers the advantage of 24/7 support and fast delivery with its large rental fleet. Rental allows for flexible meeting of power needs while directing capital to other areas. Rental prices are determined based on the unit’s power, rental duration, and logistical requirements.

Generator Service and Maintenance Processes

Professional Generator Service and Maintenance services are the only way to extend the life of your equipment and minimize the risk of failure. New Power’s certified technical teams keep your generator ready at all times with periodic checks, oil and filter changes, and comprehensive system tests. Service processes consist of fault detection, repair, and testing steps.

The Importance of Generator Periodic Maintenance

Generator periodic maintenance allows potential failures to be detected while they are still minor issues. These maintenance routines cover not only mechanical parts but also electrical panels, control units, and cooling systems. Regular maintenance significantly reduces unexpected downtime, increasing operational efficiency.

Generator Spare Parts Supply and New Power Assurance

The supply of original Generator spare parts is essential for a generator’s long life. Low-quality or unsuitable parts can damage the entire system. New Power guarantees original spare parts for all generator models it sells for many years, ensuring its customers have no concerns about parts supply.

Generator Troubleshooting and 24/7 Support

A fast response time is critical in emergencies. The Generator troubleshooting process involves a professional team reaching the site as quickly as possible after a fault is reported. New Power commits to providing quick and definitive solutions even to the toughest faults with its 24/7 technical support line and extensive nationwide service network.

Diesel Generator Prices and Return on Investment (ROI)

Diesel Generator prices may initially be higher than gasoline or some natural gas systems. However, when the Return on Investment (ROI) is analyzed, diesel generators are proven to be much more economical in the long run.

The high energy density of diesel means less fuel consumption for the same amount of energy generation. This fuel efficiency significantly reduces operational costs, especially for businesses with long operating hours. Furthermore, the longer maintenance intervals of diesel engines also reduce service and spare parts expenses. As a longer-lasting asset requiring less amortization, diesel generators quickly offset the initial investment cost, especially in critical applications and under heavy conditions.

Diesel Generator Frequently Asked Questions

Why are diesel generators longer-lasting compared to other fuel types?

Diesel engines are manufactured with thicker cast-iron blocks and more robust components to withstand high compression ratios. This structural durability extends the engine’s overall life as it is suitable for continuous and heavy-load operation. Also, diesel fuel has lubricating properties that slightly reduce wear and tear.

Why is the dry running test (Load Banking) important?

When generators are not operated at full capacity or under sufficient load, unburned fuel and oil accumulation (“wet stacking”) can occur within the engine. Dry running (load bank) tests ensure the generator runs at full load by connecting it to an artificial load, cleaning the engine and guaranteeing readiness in the event of a real outage. These tests are vital, especially for Diesel Generator | New Power systems waiting as backup power.

How long does it take to transport and install mobile generators?

New Power mobile generators are specially designed for quick commissioning. While transport and placement time depend on location and logistical challenges, the preparation time is minimal due to their wheeled chassis. A team of experts can safely position and start the generator in a short time.

Is looking only at the kVA value enough when choosing a generator?

No, the kVA value alone is not sufficient. When selecting a generator, the type of load (inductive, resistive), the system’s tolerance for harmonic distortion, and especially the starting current of large motors or equipment must be considered. It is recommended to take advantage of New Power’s free on-site power assessment service to make the correct choice.

What is the fundamental difference between cogeneration and trigeneration systems?

Cogeneration is the combined production of electricity and heat energy (usually hot water or steam). Trigeneration is one step beyond cogeneration. It is the efficient production of electricity, heat, and cooling energy (usually using absorption chillers) from a single source. Trigeneration is ideal for large facilities (malls, hotels) with year-round heating and cooling needs.

The Guarantee of Uninterrupted Power with New Power

Diesel Generator | New Power models offer the most reliable energy solution under all heavy conditions that require high power, durability, and longevity. Thanks to their structural robustness, fast response times to high load acceptance, and superior fuel efficiency, diesel generators are the fundamental guarantee of your operational continuity.

At New Power, we don’t just sell generators; we stand by you with our corporate expertise throughout the entire process, starting from free on-site assessment, project-specific Diesel Generator | New Power model selection, precise installation, to 24/7 technical support, and the supply of original Generator spare parts. If you are looking for long-lasting, efficient, and uninterrupted assurance in your projects, contact us today to discover New Power’s integrated solutions.

In today’s digitalizing world and the industrial ecosystem where continuous production is vital, energy continuity is not just a convenience, but a fundamental necessity. Generators, which step in during grid failures, planned power outages, or high power demand situations, ensure business and life continuity. In this context, Jeneratör | New Power Models, offering superior performance and reliability, are among the most preferred solutions in the industry.

The Jeneratör | New Power brand stands out with its high efficiency, intelligent control systems, and long-lasting structural components. Although it may seem like just an electricity generation machine at first glance, modern Jeneratör | New Power units are an integrated part of complex energy management systems. This article will comprehensively examine generator technology, its structural details, commercial aspects, and critical use scenarios.

About the Generator: Basic Operation and Energy Conversion

A generator is an electromechanical device that converts mechanical energy into electrical energy. This conversion process is based on fundamental principles of physics and is the key to providing uninterrupted power.

Summary of the Generator’s Working Principle

The main components of a generator are divided into the engine (the source of mechanical power) and the alternator (the part that generates electricity). The engine, usually running on diesel, natural gas, or gasoline, provides mechanical energy (rotational motion). This mechanical energy generates electric current by utilizing the relative motion between the magnetic field and conductors in the alternator (Faraday’s Law of Electromagnetic Induction).

In this process, engine speed control (Governor) and alternator voltage control (Automatic Voltage Regulator – AVR) are critically important. Achieving a stable frequency (50 Hz in Turkey) and voltage (220/380V) is the fundamental engineering success of modern generator systems.

Generator Details: Structural Components and Engineering

The long-lasting, efficient, and stable operation of a generator depends on the quality of every component used and accurate engineering. Jeneratör | New Power Models are designed with component quality exceeding industry standards.

The Importance of the Engine and Fuel Selection

The generator’s engine is the heart of the entire system. Engine selection directly impacts the generator’s power output, fuel consumption, and overall service life.

Diesel Engines: Reliability and Efficiency

Diesel generators dominate, especially in large-capacity and long-duration backup applications, due to their high torque and fuel efficiency. Diesel engines are known for their durable structure and low maintenance requirements.

Gas Engines: Environmentally Friendly and Economical Option

Generators running on natural gas or LPG offer lower emission values and are advantageous in long-term continuous operations as they can be connected to a fixed fuel line. These engines are ideal for Cogeneration systems.

Alternator (Generator) Structure and Quality Standards

The alternator is the electromagnetic part that converts the engine’s mechanical energy into electrical energy.

Stator and Rotor Engineering

The Stator (stationary part) and Rotor (rotating part) are manufactured from high-quality silicon steel laminations to efficiently carry the magnetic flux. Jeneratör | New Power alternators are designed to offer low total harmonic distortion (THD) and fast transient load response. This is especially crucial for facilities with sensitive electronic equipment.

Automatic Transfer Switch (ATS) and Control Panel

The ATS is a critical unit that enables the automatic operation of the generator system. When the mains power is interrupted, it detects the failure, starts the generator, and transfers the load to the generator.

Advanced Generator Control Units (GCU)

Modern generators are managed by GCUs (Advanced Generator Control Units). These units combine advanced functions such as remote monitoring (GSM/Ethernet), fault diagnosis, and parallel operation management in a single panel.

Generator Features: Modularity and Performance Criteria

The features of modern Jeneratör | New Power Models go far beyond traditional backup power sources. They not only provide power but also optimize energy management.

Parallel Operation Capability and Scalability

Parallel operation is indispensable for the most critical and large power needs. The ability of two or more generators to run synchronously with each other and/or with the grid provides redundancy, even in the event of a single unit failure.

Load Sharing and Fuel Efficiency (H3)

Parallel systems distribute the total load among the generators proportional to their capacities. This ensures that each unit remains at its most efficient operating point, reducing overall fuel consumption and engine wear.

Voltage and Frequency Stability

Even the smallest fluctuations in voltage and frequency can cause malfunctions in sensitive electronic devices. Jeneratör | New Power systems maintain the voltage within a tolerance of $\pm 1\%$ thanks to their fast-reacting AVRs. This high stability is mandatory for data centers and medical equipment.

Critical Areas of Use: Ensuring Business Continuity

Generators are not just for lighting up in the dark, but are a strategic tool in critical infrastructures where operational continuity must be maintained. Jeneratör | New Power solutions play a leading role in the following critical areas.

Usage Area 1: Data Centers and Information Technology Infrastructures

Data centers have zero tolerance for power interruptions and rely on Uninterruptible Power Supplies (UPS). Even a one-second interruption can cause millions of dollars in losses.

N+1 and 2N Redundancy Configurations (H3)

At least N+1 (required capacity + 1 backup) or 2N (fully dual redundant) architectures are mandatory in data centers. Jeneratör | New Power units use special GCUs to manage these complex parallel structures.

High Transient Load Response (H4)

When servers and cooling systems suddenly activate, the generator’s voltage quickly drops. High-performance Jeneratör | New Power systems react to this instantaneous load transient within 5-10 milliseconds, bringing the voltage back to the nominal level.

Usage Area 2: Critical Healthcare Facilities and Hospitals

Operating rooms, intensive care units, and laboratories in hospitals are the most sensitive environments to power outages.

Emergency Power for Life Support Systems (H3)

Legal regulations keep the time extremely short for hospital generators to detect a grid failure and take on full load. This means fast start-up and stability.

Cold Chain and Drug Safety (H4)

Blood banks and cold chain units storing vaccines must be protected against temperature changes. Parallel Jeneratör | New Power sets seamlessly take over the load even if one unit fails, preventing the disruption of this critical chain.

Usage Area 3: Large Industrial Production Facilities

In large production facilities such as automotive, cement, glass, and textiles, an electrical outage means not just loss of time, but also melted metal, raw material spoilage, and machine damage.

Management of High Inductive Loads (H3)

Large industrial motors, presses, and pumps draw 6-7 times their nominal current during the initial start-up (inductive load transient). Jeneratör | New Power Models can balance these challenging transients thanks to their robust alternators and powerful engines.

Cogeneration and Energy Optimization (H4)

Many factories use Jeneratör | New Power systems in Cogeneration (CHP) mode to reduce energy costs. The waste heat generated while producing electricity meets the facility’s heating or cooling (Trigeneration) needs.

Usage Area 4: Financial Institutions and Telecommunication Centers

Banking transactions, stock exchanges, and communication networks (base stations) cannot tolerate even seconds of downtime.

Long-Term Operation and Fuel Supply (H3)

Telecommunication centers must operate continuously for days, even in disaster scenarios. Therefore, Jeneratör | New Power systems are integrated with large fuel storage capacity, and critical maintenance requirements are minimized.

Parallel Operation with the Grid (Peak Shaving) (H4)

Large financial institutions significantly reduce electricity costs by running their own Jeneratör | New Power units synchronously during peak hours when electricity tariffs are highest, instead of drawing power from the grid.

Commercial Solutions and Purchasing Options

Generator needs require different solutions based on the project’s size, duration, and budget. Jeneratör | New Power offers a wide range of products and services suitable for this diversity.

Diesel Generator Prices and Cost Analysis

Diesel generator prices vary greatly depending on kVA power, engine brand, alternator quality, cabin type (open or soundproof), and control panel features. In long-term cost analysis, fuel efficiency, maintenance costs, and frequency of failures should be considered more than the initial investment cost. High-efficiency Jeneratör | New Power Models provide savings in operating costs.

Buy Mobile Generator and Application Flexibility

Mobile generators are ideal for places without a fixed power source, such as construction sites, concerts, road work, or emergency rescue operations. These trailer-mounted units offer fast mobility and easy installation. Mobile Jeneratör | New Power options feature a reinforced chassis structure resistant to harsh environmental conditions.

Silent Generator Models and Sound Insulation

Noise level is a critical parameter for city centers, hospitals, or commercial facilities near residential areas.

Canopy Design and Material (H3)

Silent generators are equipped with special soundproof enclosures (canopies). These enclosures are lined with sound-absorbing materials to significantly reduce engine and exhaust noise. Jeneratör | New Power silent series typically operate at levels of 65-70 dBA at a distance of 7 meters.

Portable Generator Prices and Small Power Solutions

Portable generators are produced with gasoline or small diesel engines, generally for small power needs ranging from 1 kVA to 10 kVA (home, camping, small workshops). These models offer easy portability and low initial investment cost. Portable Jeneratör | New Power prices vary depending on whether they have inverter technology or not.

Cogeneration System Installation and Energy Efficiency

Cogeneration is a system that simultaneously produces electricity and heat, increasing overall energy efficiency up to 90%.

Installation Process and Feasibility (H3)

For cogeneration installation, the facility’s electric and thermal load profile is first determined. Then, the most suitable capacity Jeneratör | New Power gas engine is selected for the facility’s needs, and heat exchanger systems are integrated to benefit from waste heat. An accurate feasibility study is essential for a successful CHP system.

Generator Rental Prices and Flexible Solutions

Renting a generator instead of purchasing is an ideal solution for short-term projects, seasonal load increases, or businesses with budget constraints.

Factors Affecting Rental Cost (H3)

Rental prices are determined based on the generator’s power (kVA), rental duration (daily, weekly, monthly), and whether transportation and fuel are included. Long-term rentals for large projects are more affordable on a per-unit basis. Jeneratör | New Power rental services include rapid delivery and on-site support.

Generator Service and Maintenance: Longevity and Maximum Reliability

Regular service and maintenance are vital to preserve the generator’s investment value and ensure it is ready for use at all times.

Generator Periodic Maintenance Procedures

Periodic maintenance involves the regular replacement of engine oil, filters (air, oil, fuel), and coolant. Additionally, battery charge levels, wiring connections, and alternator windings are checked.

Annual and Comprehensive Maintenance (H3)

Comprehensive maintenance is performed annually or when a certain number of operating hours is reached (e.g., 250 or 500 hours). These services include adjusting valve clearances, checking the turbocharger, and calibrating fuel injection systems. Jeneratör | New Power authorized services perform these maintenance procedures according to manufacturer standards.

Generator Spare Parts Supply and Originality

In the event of a fault, using original spare parts is critical for the generator’s continued performance and warranty.

The Importance of Original Parts (H3)

Aftermarket parts can cause premature wear on engine and alternator components. Jeneratör | New Power original spare parts guarantee the best performance in terms of longevity and system compatibility.

Generator Troubleshooting and Common Issues

The most common generator faults include battery problems (failure to start), fuel blockages, and low coolant levels.

Remote Diagnosis and Quick Intervention (H3)

Modern Jeneratör | New Power GCUs have the ability to remotely diagnose faults and accurately inform the service team. This speeds up the troubleshooting process and minimizes downtime.

Generator Frequently Asked Questions (FAQ)

Should kVA or kW be considered when choosing a Generator?

It is important to distinguish between kVA (apparent power) and kW (active power). While generator capacity is specified in kVA, the energy your facility actually consumes is in kW. When selecting a generator, you should look at the kVA value and take the power factor into account to be able to meet the reactive power caused by motors and inductive loads in your facility. You can find your minimum kVA requirement by multiplying your facility’s total kW need by a 20% safety margin.

Why are Generator Operating Hour Records Important?

Operating hour records are critical for determining periodic maintenance intervals. Manufacturers typically schedule oil and filter changes based on specific operating hours (e.g., 250 or 500 hours). These records also indicate how intensively the generator is used and provide insight into its remaining lifespan. Regular record-keeping also proves that warranty conditions have been met.

What is “Wet Stacking” in Diesel Generators and How is it Prevented?

“Wet Stacking” is a condition caused by diesel generators constantly running at a low load, well below their nominal capacity. This leads to the accumulation of unburnt fuel and soot in the exhaust system. To prevent it, the generator should be loaded at 50% or more of its capacity (Load Bank Test) for at least 1-2 hours once a month, or the load distribution among parallel-running units should be optimized. Jeneratör | New Power GCUs have load sharing algorithms to prevent this situation.

What is the Storage Life of Generator Fuel?

Diesel fuel degrades over time, leading to the accumulation of water and microorganisms. Generally, fuel retains its quality for 6 to 12 months under suitable conditions (in a cool and dry environment, in a closed tank). For critical applications, regular testing of the fuel and the use of stabilizing additives are recommended. Jeneratör | New Power systems can be supported with fuel filtration systems for long-term storage.