Regardless of why you need #backuppower, the most important factor is #reliability. #Missioncritical applications such as #utilities , #datacenters, #schools, #hospitals, etc... need to be able to count on reliable power from the backup system.

#maintenance of that system is a major part of achieving reliability. Easy to overlook during initial phases of #infrastructure planning, maintenance contributes both to the how reliable the system is as well as the overall total cost of ownership.

Taking these points into consideration should result in utilizing genset products that provide redundant, closed circuit, temperature resistant, safe, low-maintenance #battery chemistries such as #NiCd or #NiZn as opposed to #leadacid.

Additionally, the shorter lifespan, higher maintenance needs, and larger footprint with lead-acid batteries all contribute to a higher #TCO.

The most reliable choice is clear! Contact us today for a quote.

Mitigating Rising Fuel Pricing

With unprecedented oil prices, we are facing a 13-year high and are expected pricing to further increase. This has prompted organizations to take a closer look at how they can reduce fuel and operation costs. Diesel national average is over $4.65 per gallon (reference 1) while Natural gas is at an 8-year high currently averaging $3.92 per million British thermal units ((MMBTU) reference 2).

Dual-Fuel, sometimes referred to as bi-fuel, is rapidly growing in popularity. Dual fuel refers to replacing diesel fuel with natural gas which reduces operational costs and improving sustainability. For stand-by power generators, OptiBlend® provides the additional benefit of dramatically extending generator run-time during emergencies by utilizing the much more abundant pipeline-supplied natural gas in place of limited onsite diesel fuel.

Fuel Savings

OptiBlend® technology is based on the concept that inserting additional energy into the combustion chamber in the form of natural gas, allowing the engine to use less diesel fuel to produce the same power. Typically, 50-70 percent of the diesel fuel normally used can be safely displaced with natural gas, potentially doubling the run time of the engine. The system is a retrofit to the air intake and does not require any modification to the engine itself or the diesel fuel management. This allows OptiBlend® to be installed on nearly any new or existing engine, offering the benefits of dual fuel to almost any facility and organization.

Savings Example

1,000kW generator: Example shows the cost comparison between a generator running 100% on diesel compared to utilizing OptiBlend® at a substitution rate of 65%. Actual results will vary from each engine and manufacturer. The cost savings is directly related to cost of diesel, cost of natural gas, and the number of operation hours.

Assumptions

100% diesel operation

Dual fuel operation

OptiBlend® annual operation savings

Diesel Usage with OptiBlend®

Notes:

1) Assumes 129,000 BTU/gallon for diesel fuel

2) Assumes natural gas has 1015 BTU/ft3

3) Gas values include a 15% addition for any potential efficiency loss

How it works

The OptiBlend® solution provides traditional, single-speed engines the ability to run on two fuels simultaneously, thus offsetting diesel fuel consumption and thereby extending the runtime. OptiBlend® uses the fumigation method and Venturi-style mixers to introduce natural gas into the intake airstream of a diesel engine. This process of blending diesel and natural gas in an engine is commonly referred to in the industry as dual fuel.

The OptiBlend® system utilizes a specialized gas train consisting of a manual ball valve, a 25-mesh filter, an electric shutoff solenoid, and a zero-pressure regulator (ZPR). The gas train feeds the mixer(s) via an infinitely adjustable throttle valve (butterfly-style) providing industry leading system management. These components offer multiple redundant shutoffs to stop the flow of gas: the throttle and the solenoid can be closed manually, the manual ball valve can be closed, and there is an E-Stop button that will de-energize the system completely. Additionally, by design, the ZPR cannot allow gas to flow unless it senses suction from the engine. This ensures natural gas is only ever drawn into the engine and never forced in under pressure which is inherently safer.

There are no special tools required to install or operate the OptiBlend® system and every setting can be changed via the Human Machine Interface (HMI) making over-the-phone technical support possible. Often, any issues that arise can be solved without a technician on site, which saves expense and minimizes downtime. All components are extremely robust, require very little maintenance, and are designed to stay on and in constant use. Weather it is a backup power or prime power application, OptiBlend® is ready for immediate action when you need it most. OptiBlend® has proven its durability over the past 10 years and to this date, has never damaged or “torched” an engine.

There is no loss in power or engine performance and the system can handle large load swings without issue. OptiBlend® can also run field gas and can adapt in real-time to changes in the chemical makeup in that gas. Lastly, if the natural gas supply was interrupted, the engine will revert to 100% diesel and the OptiBlend® system will go into standby until the correct parameters are met to once again flow gas safely; there is no need for someone to go out and manually restart the OptiBlend® system as we provide an auto restart feature. Generators always run 100% diesel upon startup, retaining the quickness of traditional diesel generators in switchgear response. This is crucial for hospitals because they have a short window for the generators to come online, dedicated natural gas generators often cannot meet this essential specification making OptiBlend® the ideal solution.

CONTACT US NOW TO GET A QUOTE OR TO LEARN MORE!

Austin received his MBA from Oregon State University in 2018 with a focus in Market Research. During this time, he worked for a market research group within OSU called Close to The Customer. Running focus groups and making reports for local businesses in Corvallis, and for Oregon State University’s needs as well.

Primary passions outside of work are basketball and pickleball. Austin has been playing basketball for the last 15 years plus, over the last 10 years or so outside of Covid times at Linfield College in his hometown of McMinnville. During the last 2 years Pickleball has become the major focus, competing in several tournaments across Oregon and one in Washington recently.

Coming from the wine industry, as a water technician Austin’s job was to make water drinkable/usable for major wineries and serving residential homes, with systems like UV, water softeners, filters, and chemical injection. Servicing wineries like Domaine Serene, Stoller, Soter, Bergstrom, Penner Ash, Cherry Hill, Andante, Ponzi, Shea, and many others across Oregon.

Austin brings an array of background experiences that will help him in this new position, having worked alongside electricians on jobsites during major builds/installations at wineries, commercial buildings and residential homes across Oregon.

We are stoked to have Austin on-board with us at Renosa!