Heseri

At a Glance

Quick Facts: Heseri LLC develops specialized commercial solar and Waste-to-Energy and renewable microgrids for data centers and Edge AI in Honolulu and O‘ahu; services can be requested via our [Contact Form] below, with typical project deployment timelines of 12–24 months and competitive PPA rates starting around $0.19/kWh, all delivered under full Hawaii state licensing and comprehensive industrial insurance.

reliable, sustainable, and affordable energy for all

What we do

Clean, affordable energy accessible to all. 
Focus: Shared solar | Waste-to-energy | Agrivoltaics
Serving all Hawaii Islands and the Pacific Region.
Fully licensed Hawaii general contractor and insured for utility-scale projects.
Shared solar: typical 10–20% bill reduction for renters on O‘ahu;
Waste-to-Energy: 100% microgrid power supply;
Energy storage: 4–8 hours of backup;

Request Service Quote

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Service & Solution

Waste-to-Energy

Waste-to-Energy (WtE) Microgrids

Definition: A continuous power solution that converts municipal solid waste into high-uptime, 24/7 baseload electricity and thermal energy.
3 Benefits: Reliable non-intermittent power; significant landfill diversion; locked-in energy costs immune to fuel surcharges.
Typical Size/Capacity: 2MW – 50MW.
Ideal Customers: Data Centers, Edge AI providers, and large Industrial Parks in Hawaii.
Measurable Outcome: Achieving 99.9% power uptime and a 40%+ reduction in long-term OpEx compared to local utility rates.

Shared Solar (Community Solar)

Customized Solar Solutions

Definition: A decentralized solar model allowing multiple subscribers to benefit from a single off-site solar array through bill credits.
3 Benefits: No on-site installation required; democratized access to clean energy; lower monthly utility bills for subscribers.
Typical Size/Capacity: 250kW – 5MW.
Ideal Customers: Multi-unit residential buildings (condos), small businesses, and non-profits.
Measurable Outcome: Up to 20% savings on annual electricity expenditures for all participating subscribers.

Agrivoltaics (Dual-Use Solar)

Agrivoltaics (Dual-Use Solar)

Definition: The simultaneous use of land for both solar energy production and agricultural activities like crop farming or grazing.
3 Benefits: Optimized land-use efficiency; improved crop yields via partial shading; dual revenue streams for landowners.
Typical Size/Capacity: 1MW – 20MW.
Ideal Customers: Local Hawaiian farmers and state-owned agricultural lands.
Measurable Outcome: 30% increase in total land productivity (energy + agriculture) per acre.

Energy storage power station in the morning

Battery Energy Storage Systems (BESS)

Definition: Advanced stationary battery setups that store excess renewable energy for use during peak demand or grid outages.
3 Benefits: Enhanced grid stability (peak shaving); seamless emergency backup; maximization of self-generated solar power.
Typical Size/Capacity: 1MWh – 100MWh.
Ideal Customers: Critical infrastructure, Edge AI hubs, and utility-scale solar developers.
Measurable Outcome: Instantaneous power backup transition (<10ms) during utility grid failures.

Renewable energy project Consulting

Strategic Energy Consulting

Definition: Expert advisory services covering site feasibility, Hawaii-specific regulatory permitting, and financial modeling for microgrid projects.
3 Benefits: Reduced regulatory risk; accelerated project timelines; optimized tax incentive (ITC/PTC) utilization.
Typical Size/Capacity: Strategic advisory for $1M - $100M+ energy projects.
Ideal Customers: Mainland developers entering the Hawaii market and local government agencies.
Measurable Outcome: Reducing average project permitting time by 4–6 months through local Hawaii expertise.

Energy Revolution

Our Vision

A world where every community, regardless of location or economic status, has access to clean, reliable, and affordable energy, powered by innovative solutions that foster independence and resilience.
Competitive rates vs. traditional utility tariffs

Typical Practical Scenarios

Waste-to-Energy on-site Microgrid

Areal view of Amager Bakke, Slope or Copenhill, incineration plant, heat and power waste-to-energy plant and offshore wind turbines power

Disaster Recovery & Emergency Operation Center (Resilience Hub)

In hurricane-prone regions, a WtE-powered microgrid serves as a hardened Tier IV disaster recovery site. Unlike traditional centers that rely on limited diesel stockpiles, this facility generates its own electricity from a continuous stream of local municipal waste. The microgrid is designed with "island mode" capabilities, allowing it to disconnect from the main utility during a grid collapse. This ensures that critical government databases, emergency communication networks, and medical cloud services remain operational. By integrating Battery Energy Storage Systems (BESS), the plant can manage transient load spikes, providing true energy sovereignty and mission-critical reliability during natural disasters.

Aerial view of solar panels on the roofs of factories in an industrial area

Circular Industrial Park Co-location


In an integrated industrial park, a WtE microgrid serves as a centralized "Utility-as-a-Service" for modular data centers and light manufacturing. The plant processes industrial waste on-site, eliminating waste hauling fees and carbon taxes. Beyond electricity, the high-grade thermal energy is captured via a Combined Heat and Power (CHP) system to provide district cooling for the server halls. This synergy allows data center developers to lock in long-term "behind-the-meter" power rates that are significantly lower than standard commercial tariffs. The result is a highly competitive, sustainable campus that attracts ESG-conscious tech tenants looking for stable operational costs.

Data processing and storage center. Server room.

High-Density AI Training Hub (Oahu)


Located near urban centers like Honolulu, an AI training facility co-located with a WtE plant benefits from direct, high-voltage power lines bypassing the congested public grid. This microgrid provides a steady, 24/7 base load required for massive GPU clusters (e.g., NVIDIA H100s), which cannot tolerate the intermittency of solar power. By utilizing excess steam from the incineration process for absorption cooling, the facility can achieve an ultra-low PUE (Power Usage Effectiveness). This setup creates a "digital-circular economy" where city waste fuels the processing of global data, meeting Hawaii’s strict RPS goals while avoiding volatile electricity surcharges.

The Ultimate Hawaii-Based Energy Solution

Illuminate Your Future

Transform your energy solutions with Heseri LLC's cutting-edge solar and storage technology, tailored for Honolulu County. Achieve sustainability and savings today.

Customer Comments

Heseri LLC in Honolulu County, HI offers exceptional service and has completely exceeded my expectations. Highly recommend!

Heseri LLC provides exceptional service with a personal touch, making every visit a memorable experience in Honolulu County. Their dedication to quality is truly unmatched!

- Alex Nguyen

Heseri LLC's solar and storage tech slashed our energy bills. Their team was knowledgeable and courteous, making the entire process hassle-free. A must for anyone in Honolulu looking to embrace renewable energy solutions.

- Morgan Lee