Snapshot & Reflection 2025 · Industry · published March 2025 · data through 2022-2023

Industry in the Gelderland 2025 snapshot

Industrial emissions in Gelderland declined only modestly between 2021 and 2022, from 3,706 to 3,548 kton CO₂-eq. This sector page shows the remaining reduction and carbon storage potential towards 2030, with energy efficiency, landfill gas capture, CCS/CCU and biobased construction as core routes.

Download the sector analysis Back to the 2025 snapshot

Core message

Modest decline, major remaining potential

Industry in Gelderland does not resemble a heavy basic-industry province in the narrow sense. Waste incineration, landfill gas, process energy demand and material chains are central to the regional industrial climate task.

The sector requires four implementation routes: process energy efficiency, landfill gas capture, CCS/CCU around existing facilities and biobased construction chains that connect industry, agriculture and the built environment.

Cover of the Industry sector analysis for the Gelderland Climate Opportunities Snapshot 2025

-4.3%

industry emission trend 2021-2022

1,725

kton CO₂-eq reduction potential in Ambitious

231

kton CO₂-eq storage potential through biobased construction

core industry solutions

Reading guide

Published in March 2025. The analysis is based on emissions data through 2022 and 2023 where available. Registration data lags a few years behind publication, which means that each edition uses the most recent fully available data years.

TTW and WTW

Emission reporting follows TTW: direct emissions within the provincial boundary. Reduction potential follows WTW: full chain emissions from source to use. Carbon storage is reported separately so that avoided emissions and stored carbon are not mixed.

View the TTW versus WTW method page.

Industry profile

The industrial task in Gelderland is shaped by waste processing, landfill gas, energy-intensive processes and emerging biobased material chains. This makes the sector both a reduction challenge and a carbon storage opportunity.

What is progressing

Existing cases such as CO₂ capture at AVI Duiven and biogenic CO₂ capture at ARN Weurt show that industrial carbon routes are already tangible in Gelderland.

What is lagging

The emission decline is limited compared with the national industrial trend. Scaling CCS/CCU and deep energy efficiency still depends on infrastructure, policy and investment certainty.

Four industry solutions

The four core industry solutions combine direct emission reduction with carbon storage through biobased construction.

Solution	Reference 2030	Ambitious 2030	Application
Energy efficiency	405 kton	950 kton	Process optimisation, heat recovery, energy management and electrification where grid capacity allows.
Landfill gas capture	209 kton	475 kton	Methane reduction at active and former landfill sites.
CCS/CCU at waste incineration	155 kton	300 kton	CO₂ capture linked to use or storage routes, including the AVI Duiven case.
Biobased construction	116 kton storage	231 kton storage	Temporary to medium-term storage in building materials such as timber, hemp, flax and other fibres.

Downloads and related pages

Industry sector analysisPDF, AI-light version Methodological appendixPDF with assumptions and sources

FAQ Industry snapshot

How much did industrial emissions decline?

Industrial emissions declined by approximately 4.3% between 2021 and 2022.

What is the largest industry solution?

Energy efficiency is the largest reduction route, with 950 kton CO₂-eq potential per year in the Ambitious scenario for 2030.

Why is biobased construction included?

Biobased construction connects industrial material chains with temporary to medium-term carbon storage in buildings.

Industry needs targeted implementation routes

Energy efficiency, methane reduction, carbon capture and biobased materials form the core of the Gelderland industrial transition.