Lund Oil, Inc.

THE FUTURE OF FUEL IS HERE.

We’ve been hard at work incorporating lower carbon intensive fuels in to our fuel portfolio, where we will be able to offer a spectrum of fuels that aim at lowering GHG emissions. From locally produced diesel to LNG and Synthetic Natural Gas. No matter what your fuel of choice or preference is, we have you covered!

The liquefaction of methane from flare gas into LNG represents another innovative stride. LNG is a cleaner fuel compared to other fossil fuels, and its production involves cooling methane to a liquid state, making it easier to store and transport. By converting flare gas into LNG, the oil and gas industry can tap into a new market, selling this cleaner fuel for various uses like power generation or transportation. This not only helps in reducing the wastage and environmental impact of flaring but also contributes to the growing demand for cleaner energy sources.

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PRODUCTS & SERVICES

LNG (LIQUEFIED NATURAL GAS)

Natural Gas emits lower levels of carbon dioxide (CO2) and other pollutants when combusted or burned. The energy density when compared to its similar CNG is higher and the operating pressures are lower.

LOCAL DIESEL PRODUCTION

By micro-refining our own crude feedstock locally we can reduce up to 4lbs of CO2 per gallon of diesel.

SYNTHETIC NATURAL GAS (SYNGAS)

By mixing the right air to fuel ratio on our propane we can reliably deliver a substitute to Natural Gas.

BATTERY EVERGY STORAGE SYSTEM (BESS)

Provide reliable backup power during grid outages or emergencies, ensuring uninterrupted power supply for critical facilities, such as hospitals, data centers, and Oil & gas production infrastructure.

INNOVATE SOLUTIONS

ENVIRONMENTAL MANAGEMENT & FLARE GAS CAPTURE

The innovative use of flare gas for Bitcoin mining and the liquefaction of methane for LNG (Liquefied Natural Gas) presents a remarkable shift in how we approach energy utilization and environmental management. Typically, flare gas – primarily composed of methane – is a byproduct of oil extraction and is often burned off in flares, contributing to carbon emissions. However, this practice is being reimagined through two groundbreaking approaches.

SUSTAINABLE ENERGY DEVELOPMENT

Both these methods exemplify how technology and innovative thinking can transform environmental challenges into opportunities for sustainable development. By harnessing flare gas for Bitcoin mining and LNG production, we are not only mitigating environmental harm but also paving the way for a more efficient and sustainable energy future.

UTILIZATION OF HEAT INTO GREENHOUSE OPERATION

Incorporating the concept of utilizing waste heat from Bitcoin mining and LNG production to heat greenhouses adds another layer of environmental efficiency and sustainability to this innovative approach. The process of Bitcoin mining and the liquefaction of methane for LNG generates a significant amount of heat, which is often released into the atmosphere as waste. However, this heat can be captured and redirected to serve a beneficial purpose.

By channeling the excess heat into greenhouses, we can create an ideal warm environment for growing a variety of plants, especially in colder climates or during winter months. This not only reduces the energy costs associated with heating greenhouses but also enhances the sustainability of the operation. It essentially creates a closed-loop system where the byproduct of one process (heat) is used as a resource for another (agriculture), significantly reducing the overall environmental footprint.

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MEET OUR TEAM

Meet Brady Lund, Vice President of Lund Oil!
 
In our latest testimonial, Brady shares his unique journey from aviation school to becoming the 3rd generation at Lund Oil. Initially coming back home to help his Dad, Brady made his stay permanent and continues to uphold the family legacy. Watch below to hear his story and understand why Lund Oil stands out in the industry.
 
Fueled by Lund 
Contact us today!
Phone: 701.842.2805
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BRINGING TECHNOLOGY, ENERGY PRODUCTION, AND AGRICUTLURE TOGETHER

Such a system exemplifies a symbiotic relationship between technology, energy production, and agriculture. It demonstrates a practical application of circular economy principles, where waste from one process is repurposed as a resource for another. Utilizing waste heat for greenhouses not only makes the Bitcoin mining and LNG production processes more environmentally friendly but also contributes to local food production, reducing the carbon footprint associated with transporting food over long distances. This holistic approach to energy and resource use is a forward-thinking step towards more sustainable industrial practices.

In the context of the oil industry, particularly in drilling and hydraulic fracturing (fracking), LNG serves as a more environmentally friendly alternative to conventional fuels. Its use can lead to a substantial reduction in emissions of pollutants such as nitrogen oxides, sulfur dioxide, and particulate matter, as well as a notable decrease in carbon dioxide emissions. This transition not only helps oil companies in reducing their environmental footprint but also aids in meeting increasingly stringent environmental regulations.

The utilization of Liquefied Natural Gas (LNG) in drilling and hydraulic fracturing activities within the oil industry, as well as in broader consumer markets such as heavy truck traffic and mining, represents a significant shift towards cleaner and more efficient energy practices. LNG, being a cleaner-burning fuel compared to traditional diesel or coal, offers numerous environmental and economic advantages.

SCHEDULE A FREE STRATEGY SESSION

Beyond the oil industry, LNG is gaining traction in other heavy-duty applications. In the transportation sector, especially in heavy trucking, LNG is emerging as a viable alternative to diesel. This shift is driven by the need for cleaner transportation fuels to reduce air pollution in urban areas and along major transportation corridors. LNG-powered trucks offer lower emissions, and when sourced from domestic reserves, they also enhance energy independence.

Similarly, in the mining industry, which traditionally relies heavily on diesel-powered machinery, the adoption of LNG can significantly reduce the environmental impact. Mining operations are often located in remote areas where the environmental effects of diesel use are pronounced. By switching to LNG, mining companies can not only reduce emissions but also potentially lower fuel costs, given the often-lower price of natural gas compared to diesel.

The widespread adoption of LNG in these sectors also spurs infrastructure development, like LNG refueling stations and specialized transport vehicles, further supporting the growth of this cleaner energy ecosystem. However, it’s important to consider the entire lifecycle of LNG production, including extraction and liquefaction, to fully understand and mitigate its environmental impacts