Tribal Solar Programs

OUR POWER IS NATIVE

Reliable

Complete Tribal Energy Development With A Focus On Utilizing Solar Micro-Grids To Electrify Native Economies

Renewable

Establishing And Optimizing Native Energy Resources Is All We Do So You Have Trusted Advice From Energy Experts 24/7 To Harness The Sun

Responsible

We Partner With Tribal Leadership and Funding Partners To Execute The Obligation To Develop Energy Resources For The Benefit Of Future Generations

Revenue

We Position Your Tribe Favorably In The Renewable Energy Economy To Take Advantage Of Project Funding, Tax Credits, Revenue Generation And RECs

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An Introduction To Your Tribal Energy Experts: Your Partners In Global Impact.

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TRIBAL SOLAR PROGRAMS

CONTACT RED POWER ENERGY ABOUT YOUR MICRO-GRID

Red Power Energy Solar Solutions
Solar Power for Tribal Facilities

Solar PV Systems for Government Buildings

Design: A 100 kW rooftop solar PV system.

Components: 300 x 330W panels, 2 x 50 kW inverters, custom roof mounts, wiring, electrical components, monitoring system.

Total Cost: $150,000

Annual Energy Production: 140,000 kWh

Payback Period: ~10.7 years

Solar Water Heating for Tribal Facilities

Design: Solar thermal system for a community center.

Components: 10 flat-plate collectors, 1,000-gallon storage tank, heat exchanger, pumps, controls.

Total Cost: $55,000

Annual Savings: $5,000

Payback Period: 11 years

Solar Parking Lot Canopies

Design: 200 kW solar canopy over parking lot.

Components: 600 x 330W panels, steel canopy structure, 4 x 50 kW inverters, electrical wiring, monitoring system.

Total Cost: $420,000

Annual Energy Production: 280,000 kWh

Payback Period: ~12 years

Solar-Powered LED Lighting

Design: Solar street lighting for a 2-mile road.

Components: 40 units of solar LED lights, 10 kWh battery storage per light, 200W solar panels per light, poles, and mounting.

Total Cost: $140,000

Annual Savings: $10,000

Payback Period: 14 years

Tribal Housing and Community Solar Initiatives

Residential Solar PV Systems

Design: 5 kW rooftop solar system for individual homes.

Components: 15 x 330W panels, 1 x 5 kW inverter, mounting, wiring.

Total Cost: $8,000

Annual Energy Production: 7,000 kWh

Payback Period: ~11.4 years

Community Solar Projects

Design: 1 MW solar farm shared by 100 households.

Components: 3,030 x 330W panels, 20 x 50 kW inverters, mounting systems, monitoring system.

Total Cost: $2,000,000

Annual Energy Production: 1,400,000 kWh

Payback Period: ~10 years

Solar Water Heaters for Homes

Design: Solar water heating system for a 4-person household.

Components: 1 flat-plate collector, 80-gallon storage tank, heat exchanger.

Total Cost: $5,000

Annual Savings: $500

Payback Period: 10 years

Solar Battery Storage for Homes

Design: 10 kWh battery storage paired with a 5 kW solar system.

Components: 10 kWh lithium-ion battery, inverter, charger, 15 x 330W solar panels.

Total Cost: $14,000

Annual Savings: $1,000

Backup Power: ~2 days of critical load support

Solar Power for Tribal Enterprises

Solar PV Systems for Casinos

Design: 500 kW rooftop solar system for a casino.

Components: 1,515 x 330W panels, 10 x 50 kW inverters, mounting systems, wiring, monitoring.

Total Cost: $1,000,000

Annual Energy Production: 700,000 kWh

Payback Period: ~14 years

Solar Energy for Tribal Hotels and Resorts

Design: 300 kW ground-mounted solar system for a resort.

Components: 910 x 330W panels, 6 x 50 kW inverters, mounting structures, electrical wiring.

Total Cost: $610,000

Annual Energy Production: 420,000 kWh

Payback Period: ~14.5 years

Solar-Powered RV Parks

Design: 100 kW solar system with EV charging stations for an RV park.

Components: 300 x 330W panels, 2 x 50 kW inverters, 10 dual-port EV charging stations, wiring, mounting.

Total Cost: $300,000

Annual Energy Production: 140,000 kWh

Payback Period: ~8.6 years

Solar-Powered Gas Stations and Convenience Stores

Design: 50 kW solar system paired with 50 kWh battery storage.

Components: 150 x 330W panels, 1 x 50 kW inverter, 50 kWh battery storage, mounting, electrical.

Total Cost: $125,000

Annual Energy Production: 70,000 kWh

Payback Period: ~12.5 years

Solar-Powered Data Centers

Design: 1 MW solar system with 500 kWh battery storage for a data center.

Components: 3,030 x 330W panels, 20 x 50 kW inverters, 500 kWh battery storage, mounting systems, monitoring, wiring.

Total Cost: $2,000,000

Annual Energy Production: 1,400,000 kWh

Payback Period: ~13.3 years

Solar Micro-Grids and Electrification Programs

Revenue-Generating Solar Micro-Grids

Design: 2 MW solar micro-grid with 1 MWh battery storage.

Components: 6,060 x 330W panels, 40 x 50 kW inverters, 1 MWh lithium-ion battery, micro-grid controller, EMS.

Total Cost: $4,400,000

Annual Energy Production: 2,800,000 kWh

Payback Period: ~13.5 years

Cost-Offsetting Micro-Grids

Design: 500 kW solar micro-grid for a small tribal community.

Components: 1,515 x 330W panels, 10 x 50 kW inverters, 500 kWh battery storage, micro-grid controller.

Total Cost: $1,200,000

Annual Energy Production: 700,000 kWh

Payback Period: ~17 years

Solar-Powered Electrification for Remote Areas

Design: 50 kW off-grid solar system with 100 kWh storage.

Components: 150 x 330W panels, 1 x 50 kW inverter, 100 kWh battery storage, charge controller.

Total Cost: $170,000

Annual Savings: $20,000

Payback Period: ~8.5 years

Community-Scale Solar+Battery Systems

Design: 200 kW solar system with 500 kWh battery storage for a tribal village.

Components: 606 x 330W panels, 4 x 50 kW inverters, 500 kWh battery storage, micro-grid controller.

Total Cost: $790,000

Annual Energy Production: 280,000 kWh

Payback Period: ~28 years

Solar Power for Diesel Backup Replacement

Design: 100 kW solar system paired with 200 kWh battery storage.

Components: 300 x 330W panels, 2 x 50 kW inverters, 200 kWh battery storage, charge controller.

Total Cost: $320,000

Annual Savings: $30,000

Payback Period: ~10.7 years

Solar for Agriculture and Food Production

Solar-Powered Irrigation Systems

Design: 10 kW solar-powered irrigation system for a 50-acre farm.

Components: 30 x 330W panels, DC water pump, 1 x 10 kW inverter, piping, wiring.

Total Cost: $25,000

Annual Savings: $5,000

Payback Period: ~5 years

Solar-Powered Greenhouses

Design: 50 kW solar system for a 10,000 sq ft greenhouse.

Components: 150 x 330W panels, 1 x 50 kW inverter, electrical wiring and monitoring, ventilation, climate control.

Total Cost: $100,000

Annual Savings: $15,000

Revenue from Extended Growing Season: $25,000/year

Solar Dryers for Agricultural Products

Design: Solar dryer system for a small-scale agricultural operation.

Components: 10 solar air collectors, drying chambers, ventilation system, electrical components for monitoring.

Total Cost: $35,000

Revenue Increase from Dried Goods: $10,000/year

Payback Period: ~3.5 years

Solar Cold Storage Facilities

Design: 100 kW solar-powered cold storage facility for perishable goods.

Components: 300 x 330W panels, 2 x 50 kW inverters, 200 kWh battery storage, refrigeration units.

Total Cost: $370,000

Annual Savings: $40,000

Increased Revenue from Longer Storage Capabilities: $30,000/year

Solar-Powered Fisheries

Design: 50 kW solar system for a small-scale fish farm.

Components: 150 x 330W panels, 1 x 50 kW inverter, aeration and pumping systems.

Total Cost: $100,000

Annual Savings: $15,000

Increased Yield from Better Control: $20,000/year

Solar for Cannabis Operations

Solar-Powered Vertically Integrated Cannabis Operations

Design: 500 kW solar system powering all stages from cultivation to processing.

Components: 1,515 x 330W panels, 10 x 50 kW inverters, 500 kWh battery storage, climate control systems, LED grow lights.

Total Cost: $1,800,000

Annual Savings: $300,000

Increased Yield and Quality: $500,000/year

Solar Grow Lights

Design: 100 kW solar system dedicated to powering indoor grow lights.

Components: 300 x 330W panels, 2 x 50 kW inverters, LED grow lights.

Total Cost: $270,000

Annual Savings: $50,000

Increased Yield from Optimal Lighting: $100,000/year

Solar-Powered Processing Facilities

Design: 200 kW solar system for cannabis extraction and processing.

Components: 606 x 330W panels, 4 x 50 kW inverters, 200 kWh battery storage, extraction equipment.

Total Cost: $830,000

Annual Savings: $100,000

Increased Production: $200,000/year

Solar-Powered Greenhouses for Cannabis

Design: 250 kW solar system for a 50,000 sq ft greenhouse.

Components: 757 x 330W panels, 5 x 50 kW inverters, 250 kWh battery storage, HVAC and climate control systems.

Total Cost: $875,000

Annual Savings: $150,000

Increased Yield and Quality: $300,000/year

Solar-Driven Climate Control Systems

Design: 100 kW solar system for advanced climate control in cannabis cultivation.

Components: 300 x 330W panels, 2 x 50 kW inverters, 100 kWh battery storage, HVAC, CO2 systems, humidity control.

Total Cost: $370,000

Annual Savings: $80,000

Increased Yield and Quality: $150,000/year

Solar-Powered Fuel Offsets

Solar-Powered Fuel Stations

Design: 100 kW solar system with EV charging stations at a fuel station.

Components: 300 x 330W panels, 2 x 50 kW inverters, 10 dual-port EV charging stations.

Total Cost: $300,000

Annual Savings: $15,000

Additional Revenue from EV Charging: $25,000/year

Solar Charging for Electric Vehicles

Design: 50 kW solar system dedicated to EV charging.

Components: 150 x 330W panels, 1 x 50 kW inverter, 5 dual-port EV charging stations.

Total Cost: $150,000

Annual Savings: $7,500

Additional Revenue from EV Charging: $12,500/year

Solar-Powered Backup Systems

Design: 50 kW solar system paired with 100 kWh battery storage for backup power.

Components: 150 x 330W panels, 1 x 50 kW inverter, 100 kWh battery storage, control systems.

Total Cost: $170,000

Annual Savings: $15,000

Avoided Revenue Loss During Outages: $10,000/year

Solar for Diesel-Powered Facilities

Design: 200 kW solar system with 500 kWh battery storage to replace diesel.

Components: 606 x 330W panels, 4 x 50 kW inverters, 500 kWh battery storage, diesel generator integration system.

Total Cost: $790,000

Annual Savings: $70,000

Payback Period: ~11.3 years

Solar-Powered Transport Systems

Design: 100 kW solar system to power public transport electric buses.

Components: 300 x 330W panels, 2 x 50 kW inverters, EV bus charging infrastructure.

Total Cost: $370,000

Annual Savings: $50,000

Additional Revenue from EV Charging: $20,000/year

Solar for Revenue Generation and Economic Development

Utility-Scale Solar Farms

Design: 5 MW solar farm generating power for sale to the grid.

Components: 15,150 x 330W panels, 100 x 50 kW inverters, mounting structures, tracking systems, substation, grid connection.

Total Cost: $16,500,000

Annual Energy Production: 7,000,000 kWh

Revenue from Power Sales: $700,000/year

Solar-Powered Data Mining Operations

Design: 1 MW solar system powering cryptocurrency mining servers.

Components: 3,030 x 330W panels, 20 x 50 kW inverters, 1 MWh battery storage, data center cooling systems.

Total Cost: $3,400,000

Annual Savings: $250,000

Cryptocurrency Mining Revenue: $1,000,000/year

Solar Energy Export Programs

Design: 2 MW solar system with PPA to export energy to neighboring communities.

Components: 6,060 x 330W panels, 40 x 50 kW inverters, 2 MWh battery storage, grid connection, export infrastructure.

Total Cost: $6,000,000

Annual Energy Production: 2,800,000 kWh

Revenue from PPA: $280,000/year

Solar-Powered Business Incubators

Design: 100 kW solar system supporting a business incubator facility.

Components: 300 x 330W panels, 2 x 50 kW inverters, 100 kWh battery storage, office and facility HVAC, lighting.

Total Cost: $440,000

Annual Savings: $30,000

Revenue from Incubated Businesses: $100,000/year

Solar-Powered Manufacturing Facilities

Design: 500 kW solar system powering a tribal manufacturing facility.

Components: 1,515 x 330W panels, 10 x 50 kW inverters, 500 kWh battery storage, manufacturing equipment integration.

Total Cost: $1,750,000

Annual Savings: $200,000

Increased Manufacturing Efficiency: $300,000/year

RED POWER ENERGY DEVELOPMENT PROCESS | 855-573-3769

RED POWER ENERGY'S SOLAR DEVELOPMENT PROCSS IS ALWAYS TRANSPARENT COMMUNITY DRIVEN PARTNER BASED TRIBAL SOLAR THE RIGHT WAY

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Common Tribal Energy Questions

Most Popular Tribal Energy Questions

A: Solar energy can provide numerous benefits to your tribe, including:

  • Reduced energy costs and increased energy independence
  • Job creation and economic development opportunities
  • Environmental stewardship and reduced carbon footprint
  • Potential for revenue generation through excess energy sales
  • Enhanced resilience and energy security for your community

A: We offer comprehensive solar energy services, including:

  • Solar feasibility studies and site assessments
  • System design and engineering
  • Project financing assistance and grant application support
  • Equipment procurement
  • Construction and installation
  • Operations and maintenance
  • Training and capacity building for tribal members

Red Power Energy specializes in Native American Renewable Energy with a focus on electrifying tribes. As a !00% Native Owned company, We understand your unique needs, sovereignty issues, and the importance of preserving our cultural heritage while advancing your energy infrastructure.

A: Red Power Energy offers a comprehensive initial consultation where we assess your tribe's energy needs, land resources, and economic goals. We will explain the potential of solar for your specific situation and outline possible project paths and a written offer to assist moving forward.

  • Initial consultation and needs assessment
  • Site survey and feasibility study
  • Custom system design
  • Securing necessary permits and approvals
  • Financing and/or grant acquisition
  • Equipment procurement
  • Installation and construction
  • System commissioning and testing
  • Ongoing maintenance and support

A: Project timelines can vary depending on size, complexity, and permitting requirements. Generally, smaller projects might take 3-6 months, while larger utility-scale projects could take 12-18 months or more. We work closely with tribal authorities to streamline the process as much as possible.

A: Yes, there are several funding options specifically for tribal solar projects, including:

  • Department of Energy Tribal Energy Program grants
  • USDA Rural Energy for America Program (REAP) grants
  • New Markets Tax Credits
  • Tribal-specific renewable energy incentives Our team can assist you in identifying and applying for suitable funding opportunities.

A: Solar energy systems can work in most climates and locations, even in areas with less direct sunlight. Modern solar panels are efficient and can generate electricity from both direct and indirect sunlight. We conduct thorough site assessments to ensure optimal system design for your specific location.

A: We prioritize cultural sensitivity by:

  • Employing Native American staff and consultants
  • Conducting extensive community engagement and consultation
  • Respecting sacred sites and traditional land uses
  • Incorporating traditional knowledge into project designs when appropriate
  • Offering training and employment opportunities for tribal members

A: Most solar panel systems have a lifespan of 25-30 years or more. Inverters typically last 10-15 years and may need replacement during the system's lifetime. We offer long-term maintenance plans to ensure your system operates at peak efficiency throughout its lifespan.

A: Solar energy storage, typically using batteries, allows you to store excess energy generated during the day for use at night or during cloudy periods. While not always necessary, storage can increase energy independence and resilience, especially in remote areas or regions with unreliable grid power.

A: Yes, tribes can generate revenue through:

  • Selling excess energy back to the grid (net metering)
  • Developing large-scale solar farms and selling energy to utilities
  • Leasing tribal lands for solar development We can help you explore these options and determine the best strategy for your tribe.

A: Solar energy can enhance tribal sovereignty by:

  • Reducing dependence on external energy sources
  • Creating local job opportunities and economic development
  • Providing a sustainable revenue stream
  • Empowering tribes to control their energy future
  • Supporting traditional values of environmental stewardship

A: Absolutely. Solar energy can support various tribal initiatives, including:

  • Powering irrigation systems for agriculture
  • Operating water pumps and treatment facilities
  • Supporting greenhouse operations
  • Electrifying remote areas for economic development We can design integrated solutions that support multiple tribal objectives.