With minimal capital outlay, the Enexor Bio-CHP™ system is an ideal candidate for the hospitality industry. With continuous electric and thermal demands, Enexor not only reduces operating costs but also offers a unique solution for waste management. Blackouts and intermittence concerns associated with other renewable solutions are eradicated by partnering with Enexor. With an ability to withstand hurricane force winds and function in virtually any environment, Enexor is a sustainable solution for countless types of facilities such as:
Whether it’s a hospital, outpatient facility or medical office building, if the facility has continuous electrical and thermal demands with an organic waste and/or plastic waste stream, an Enexor Bio-CHP™ system is the optimal solution. With minimal upfront investment, significant cost savings are immediately realized. Coupled with substantial reductions in greenhouse gas emissions, this system offers a clean and reliable solution to conventional back-up power systems – and an opportunity to claim government incentives and tax benefits.
Healthcare facilities that can benefit from a Bio-CHP™ installation include:
Lean operations are critical to the robust demands of a modern industrial facility. With minimal capital outlay, the Enexor Bio-CHP™ system is ideal for facilities with 24/7 operations, high electrical and thermal load demands, and facilities with stringent waste management protocols. Enexor not only reduces operating costs immediately, but also offers a unique solution for facilities seeking to lower their carbon footprint and profit from ’green’ incentives and tax credits – all without reducing operational efficiency.
Potential industrial applications for Bio-CHP™ systems:
Smart and sustainable buildings are the way of the future. New multi-use buildings and existing commercial developments looking into repositioning their existing asset can benefit from Enexor’s Bio-CHP™ small footprint and pay-as-you-go contract structure. With minimal capital investment, clients are afforded immediate reductions in operating costs, cost-effective solutions to achieve or improve upon existing LEED certification, and an innovative waste management solution to take advantage of local and federal ‘green’ incentives and tax credits.
Examples of commercial buildings that can leverage Enexor’s Bio-CHP™ technology include:
In an environment where future leaders and innovators are cultivated, it is only fitting to incorporate a clean, reliable, onsite, and cost-effective solution for energy, thermal and waste disposal demands. With minimal upfront capital needed, Enexor’s scalable solution provides immediate cost savings. By utilizing a sustainable pay-as-you-go contracting model, you harness a low risk approach to managing the continuous demands of large educational institutions seeking to advance to the forefront of innovation.
Bio-CHP™ systems can benefit educational facilities such as:
By law, all airports are required to incinerate all international flights’ deplaned waste. In addition to delivering a cost-effective solution for lowered electrical and thermal operating costs, with minimal capital outlay – Enexor’s Bio-CHP™ also offers an on-site solution for the management of deplaned international waste and significant reductions in greenhouse gas emissions.
Large sports and entertainment facilities typically have constant electrical and thermal loads, and they also tend to have waste streams that serve as an optimal fuel source for Enexor’s Bio-CHP™ units. By partnering with Enexor, these facilities eliminate the need for large capital investments to benefit from cost-effective and sustainable solutions that cut emissions and slash operating costs.
These facilities can include:
Cruise ship ports help bolster local economies by docking regularly to allow tourists to visit popular locations and pay for goods and services. In some cases, these ports are located in regions with high energy costs and degraded waste management infrastructure. When cruise ships dock for a port visit, cruise ships transfer some of their waste, such as presorted and compacted bundles of plastic and cardboard waste, to local waste management operators. The majority (approximately 75%) of other waste is typically treated or incinerated onboard.
Enexor can eliminate this wasted opportunity, as the organic waste and recyclables are ideal feedstocks for the Bio-CHP™ units. The waste can be mixed with other local organic waste to provide fuel to cruise ship destination areas, or stops, that are currently battling high energy costs.
Humans have made over 8.3B tons of plastic since 1950, half of which was produced in just the last 15 years. Over 90% of plastic is not recycled and despite our best efforts – end up in open landfills, or sadly by the truckloads in our oceans. Plastic is a powerful clean fuel source for the Bio-CHP™ as plastic is rich in carbon and hydrogen, which makes the following facilities prime users for our technology.
Landfills are a vital link in the solid waste management value chain and provide a critical service to our communities. The decline of the traditional recycling market, coupled with the increase in food waste, has caused a dramatic increase of recyclable and organic waste to enter landfills, leading to more methane emissions and wasted value. Additionally, due to heavy regulation, landfills must be located a certain distance from population centers and must also be equipped to manage leachate which is potentially harmful to our water supply.
Both onsite and outsourced leachate treatment and material sorting is capital and energy intensive. The Bio-CHP™’s combined heat and power capabilities provide Solid Waste Managers the solution to cost effectively manage and recover value from leachate and onsite waste.
Facilities that promote indoor growing environments have a very high-demand for both thermal and electric power. Furthermore, depending on the products being grown, incineration or other similar forms of disposal are required to properly dispose of bi-products or other plant waste. Enexor’s Bio-CHP™ technology offers a on-site solution that delivers energy at a lower operating cost, while also providing a clean and efficient solution for safe and compliant waste disposal that offsets your carbon footprint.
Facilities that could benefit include:
Enexor’s ability to provide efficient and resilient onsite energy from the customer’s own organic waste and other local organic waste streams is an ideal solution for the Department of Defense (DoD) Fixed Installations in the Continental United States (CONUS) or Outside of the Continental United States (OCONUS) facilities, such as:
Processing raw milk into a wide array of dairy products consumes a lot of energy and produces a lot of waste. Homogenization, pasteurization, and chilling are power and heat intensive. The Bio-CHP™ unit optimizes the onsite processing of wet organic waste streams to provide power, heat and chilling. The process produces free fuel, while purifying the water from the waste stream can be reused or used for clean discharge.
The resultant sludge waste byproduct from animal waste, fine powders, and additives requires onsite or outsourced treatment. Enexor’s Bio-CHP™ optimizes onsite production and waste treatment to provide power and heat to the production process, and heat to dry the sludge, which can then be used as free fuel.
Waste water and sewage treatment plants bear the critical responsibilities of providing clean drinking water to our communities and returning clean water to our natural water ways. Through the water treatment process, biosolids are created, a purely organic waste byproduct that can be used as fertilizer under, but more often than not, are transported at a high cost to landfills. With the Bio-CHP™, water treatment facilities can simultaneously provide energy for the treatment process and dry the biosolids to use as fuel, decrease transportation costs, or achieve the necessary quality standards for use in agricultural markets.
Enexor can partner with clients in the food and beverage industry to support overall sustainability initiatives and ultimately reduce the bottom line costs associated with steep operating expenses, and all with minimal upfront investment needed.
Specific requirements for emergency power vary based on government and mission critical facilities. The complex security and redundancy requirements for these facilities require steady electric and thermal output capable of quickly evolving with growing IoT needs. The resilience gained from the on-site solution that the Bio-CHP™ provides, coupled with a fuel source that is not variable but controllable, is an ideal solution.
These types of facilities can include: