Lysbotn at a Glance
Lysbotn is a Kraftverk-class hydropower plant located in Senja municipality, Troms county, in northern Norway [1][2][3]. The facility has been in continuous operation since December 1940 [4], making it one of Norway's established hydropower assets. The plant is registered with the Norwegian Water Resources and Energy Directorate (NVE) under ID 256 [1].
The facility operates within the NO4 electricity price zone [5], which covers Troms and parts of Finnmark. This regional designation is important for understanding the plant's grid connection and market exposure.
Ownership and Operation
Lysbotn is owned and operated by **TROMS KRAFT PRODUKSJON AS** [6], the primary concession holder. This entity holds the active concession status from NVE [7], confirming the plant's legal right to generate and distribute hydropower.
For detailed information about the operator's portfolio, regulatory history, and financial structure, visit the TROMS KRAFT PRODUKSJON AS operator profile.
Hydrological Context
The plant draws water from the **Lyselva watershed** [8], a key drainage basin in the Senja region. Understanding the catchment area and seasonal precipitation patterns is essential for assessing long-term generation potential. The Lyselva system's hydrological characteristics influence the plant's output profile and reliability.
Detailed hydrological data—including catchment size, mean annual precipitation, and seasonal flow patterns—are available upon registration in the HydroSec platform.
Regional Setting
Location: Senja municipality, Troms county [2][3] Electricity Zone: NO4 [5] Nearest Statnett Transformer Station: Approximately 16.35 km away (66 kV line) [9] Nearest Industrial Area: Finnfjord (Skaland), approximately 20 km away [10]
The proximity to industrial infrastructure and grid connection points is relevant for evaluating operational costs and potential for data-center or industrial heat recovery applications.
Data Center Suitability Assessment
HydroSec rates Lysbotn with a Grade A for data-center eligibility, with a maximum estimated capacity of approximately 1 MW [11]. This assessment reflects the plant's technical characteristics, grid stability, and cooling-water availability.
A Grade A rating indicates strong suitability for small-to-medium data-center operations, subject to:
- Detailed power quality and redundancy analysis
- Water availability and temperature profiles
- Local grid capacity and interconnection agreements
- Environmental and regulatory compliance
Full technical specifications, sub-scores, and site-infrastructure details are unlocked upon registration.
What You'll Access After Registration
The HydroSec platform provides registered users with:
- Detailed plant specifications: Maximum capacity, mean annual production, gross head, and efficiency metrics
- Hydrological deep-dives: Catchment analysis, precipitation data, seasonal flow patterns, and drought-risk assessment
- Financial modeling support: Historical production data, grid connection costs, and operational expense benchmarks
- Site infrastructure mapping: Transformer stations, access roads, water intake and discharge points, and environmental constraints
- Regulatory and concession documents: NVE filings, environmental permits, and compliance history
- Competitive positioning: Comparison with similar plants in the region and across Norway
Risks and Limitations
Data Completeness: Specific operational metrics (installed capacity, mean annual production, gross head) are not publicly disclosed and require platform registration to access.
Market and Regulatory Risk: Hydropower plants in Norway are subject to:
- Electricity market price volatility (NO4 zone pricing)
- Regulatory changes in energy policy and grid access
- Environmental compliance requirements and potential restrictions on water use
- Concession renewal cycles and potential renegotiation of terms
Hydrological Risk: Long-term generation depends on precipitation and runoff patterns, which vary seasonally and annually. Drought periods may reduce output below historical averages.
Grid and Infrastructure Risk: Distance to main transformer stations (16.35 km) and industrial areas may affect connection costs, maintenance logistics, and market access.
Disclaimer: This page provides factual, publicly available information about Lysbotn for informational purposes only. It does not constitute investment advice, legal counsel, or a recommendation to invest. Prospective investors should conduct independent due diligence, consult qualified advisors, and review all regulatory filings and concession documents before making investment decisions. Past performance and historical data do not guarantee future results.