NEW ERA ENERGY Partner with us

Work

The work we do — and the standard we do it to.

New Era Energy develops and originates integrated infrastructure — the portfolio spans working farms, legacy industrial land, utility-scale generation, digital infrastructure, and the subsurface beneath all of it. Specific positions are disclosed to qualified counterparties under NDA. What we publish here is the work itself: what we build, how we build it, and the discipline behind both.

The pipeline · firm-level aggregates

900+ MWdc
In engineered feasibility & underwriting
2.8+ GWdc
Identified development potential under evaluation
30,000+
Acres screened for development
19
Distinct capital sources tracked, grants → equity
6
Gates in the underwriting framework governing the pipeline

As of July 2026, on a dc basis unless marked otherwise. These are aggregates across the whole portfolio; engineered means layouts and financial models built in-house, identified means sites screened and under evaluation. Positions are originated and advanced by New Era Energy and affiliated entities, and nothing here is presented as operating.

The work · by kind

SURFACE ENERGY
WATER
LIVING LAYER

Agrivoltaic energy systems

Solar, storage & micro-grids for working agricultural operations

Engineered around the operation, not over it. We size hybrid generation and storage against measured on-site load; integrate precision irrigation, water management, and process heat — grain drying, greenhouse operations — into the same system; and configure the array for the agriculture underneath it: grazing-height fencing, orchard canopies, vertical east–west bifacial rows, floating arrays on farm ponds. Programs phase from a self-reliant farm micro-grid at distribution voltage to utility-scale export, with the agricultural capital stack — grant, loan-guarantee, and tax-credit layers — engineered in from day one rather than bolted on at the end.

AgrivoltaicsStorageMicro-gridWater
SURFACE ENERGY
WATER
SUBSURFACE

Legacy land & industrial redevelopment

Mining and industrial sites, re-read as integrated platforms

Legacy industrial land carries assets most developers never price: standing permits, existing utility infrastructure, water in the ground, and minerals in the waste. We underwrite these sites as one platform — commissioned multi-element assay work that quantifies rare-earth and critical-mineral content in refuse streams; flooded mine workings evaluated as year-round, stable-temperature cooling for compute loads; waste heat routed onward to controlled-environment agriculture; and the state and federal brownfield frameworks that convert cleanup liability into a funded asset. Every layer is mapped against the non-dilutive federal programs built for exactly this work — so remediation, minerals recovery, power, and digital infrastructure fund each other instead of competing.

BrownfieldCritical mineralsWater & coolingWaste heat → agriculture

Typical role: originator · capital architecture · development strategy

SURFACE ENERGY

Utility-scale solar & storage

Full-funnel development engineering, in-house

From raw acreage to a bankable plant design without leaving the building. Land screening runs buildable-acreage exclusion analysis — flood zones, wetlands, slope, canopy, easements — before a dollar moves. Plant design is engineered in industry-standard modeling platforms with hourly production simulation across the full year, fixed-tilt versus tracker trade studies, bifacial gain modeling, 1500-volt architectures, and DC:AC ratios tuned to the offtake shape. Interconnection pathways are assessed at both distribution and transmission level, and the financial models run on live federal energy data and current commodity strips — never on a promoter's price deck. The same engineering discipline travels: internationally we develop utility-scale programs alongside in-country partners whose government-authorized feasibility studies are complete.

Utility solarStorageInterconnectionInternational
SURFACE ENERGY
WATER
SUBSURFACE

Digital infrastructure & powered land

Compute sited where power, water & fiber already exist

Data-center development is gated by the grid, and the grid rewards those who read it correctly. We screen and originate compute sites where the hard systems already exist — industrial land with standing interconnections that sidestep multi-year queues, on-site and behind-the-meter generation paths, river and mine-water cooling resources, rail and fiber corridors — and we structure the campus so power, cooling, and heat re-use are one design problem instead of three. Site intelligence runs on our own geospatial engine, scoring any location on Earth across six development archetypes, from terrain and hydrology to grid proximity and hazard exposure.

Data centersPowered landCooling & waterSite intelligence
SUBSURFACE
SURFACE ENERGY

Resource & land positions

Minerals and gas, underwritten like a buyer

Stacked-pay and mineral positions get the same treatment as everything else we touch: our own model, built from the primary record. In-house type-curve construction, price decks benchmarked to live federal data and exchange strips, full-cycle development inventories, and red-team memos that test every promoter claim against the documents before capital sees the deal. The model exists to find the gap between the seller's story and the asset's math — and it has. Where the position ties into surface demand — power generation, industrial load, data-center corridors — we underwrite the whole chain, not just the resource.

MineralsGasUnderwritingRed-team diligence

The full range

Real projects don't arrive shaped like a firm's org chart.

New Era Energy is deliberately a catch-all. Every line below is backed by primary work product, and stated at its honest stage.

Operating

Running today
  • Commercial & industrial structuresBuilding, operating, and advising on C&I construction and redevelopment — carried by an AI-, drone-, and software-enabled field stack.
  • The firm's own softwareDeal intelligence, geospatial site screening, market analytics, and a production AI-operations stack — built and run in-house.

Development & origination

In pursuit
  • Utility-scale solar & storageMulti-state pipeline on a codified, GIS-driven siting methodology.
  • AgrivoltaicsEnergy paired with working agricultural land — layouts engineered against measured on-farm load, with a research block designed into the site plan.
  • Data-center campusesOrigination on reclaimed industrial land — power, zoning, and environmental liability structured.
  • Critical mineralsLegacy industrial waste turned to assets, mapped to federal programs.
  • Water engineeringLegacy mine-water engineered into cooling capacity and a separable water business — flow and temperature modeled, permitting path mapped.
  • Resource & land positionsMinerals and gas underwritten to institutional standard; a screened land pipeline tracked as development optionality.
  • Real propertyAdaptive-reuse and mixed-use redevelopment, modeled to the pro-forma.
  • International developmentUtility solar with completed feasibility studies; clean-water siting for water-stressed regions.

Programs, capital & advisory

Delivered & recurring
  • Federal & state grant developmentReadiness assessment, geospatial scoping, narrative, and budget — full proposal sets prepared across EPA, USDA, and state programs.
  • Public-procurement pursuitsCompliant RFQ/RFP responses with utility interconnection economics in hand.
  • Carbon financeCredit-origination models under recognized MRV standards.
  • Consulting & readiness assessmentTechnology and commercial readiness; retained under an executed origination agreement covering power generation and real-estate development.
  • Demand generationA delivered multi-state residential solar and roofing customer-acquisition engine — we have built demand, not just supply.

The mission

Build what the next era runs on — and build it as one system.

Energy, water, agriculture, minerals, and compute are converging on the same ground — and almost no one is organized to build them together. New Era Energy is organized for exactly that seam: one team, referenced to one zero line, carrying integrated projects from first screening toward operating handoff, with the regulatory fluency, capital architecture, and applied intelligence to move at a speed that belies the firm's size. The firm is built to adapt — the same team, tools, and discipline, shaped to each project's specific needs rather than forcing projects into a mold. A first conversation with us should leave any counterparty knowing more about their own ground than they learned in the year before it.

The discipline

We underwrite like a buyer, not a promoter.

Every position clears the same six gates before a capital conversation. The models run on live federal energy data. The plant designs are engineered in-house. The site intelligence comes from our own geospatial engine, which scores any location on Earth across six development archetypes — from terrain and water to grid and climate.

G·1
Strategic coherence

Does the position fit the thesis and the direction of the market?

G·2
Power deliverability

Can the power actually be delivered — grid, queue, and utility reality checked first.

G·3
Geophysical reality

Terrain, water, hazards, access, connectivity — verified, never assumed.

G·4
Equipment & procurement

Lead times and supply chains priced into the plan, not discovered later.

G·5
Contract & counterparty

Every claim in a seller's document independently re-verified.

G·6
Capital structure

Non-dilutive capital first — grants and credits, then debt, strategic partners, equity last.

Site intelligence

We know the ground before anyone drives to it.

Gate 3 runs on our own geospatial engine. It scores any location on Earth across six development archetypes from live public data — terrain, hydrology, climate, solar and wind resource, seismic and flood exposure, soils, grid and infrastructure proximity — ranks the risks, states its own data coverage, and models the financial spread before a dollar of diligence is spent.

Site scorecard — illustrative output Six archetypes · scored 0–100 · data coverage stated
Solar
87 96%
Data center
74 91%
Agriculture
69 88%
Water
58 73%
Logistics
44 95%
Wind
31 94%

Ranked risks — including our own data gaps

R1Grid interconnection distance drives network upgrade exposureHigh
R2Groundwater availability unverified — no monitoring well within radiusData gap
R3Partial floodplain overlap reduces buildable acreageMedium
R4Seasonal access constraint on the primary haul routeMedium
R5Soil bearing capacity inferred, not sampledData gap

Modeled value spread — solar case

Monte Carlo distribution across resource, cost, and price uncertainty. The spread is the answer — a single number would be a guess wearing a suit.

Illustrative output, not a real site. Every engagement produces a project-specific report, and the engine states what it could not verify — the data gaps are ranked alongside the risks, because an unknown you have named is cheaper than one you have not.