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Gas Sensors for future Ultra Low NOx Emission Legislation – Euro 7

Descrizione del progetto

Misurazione dell’inquinamento atmosferico con semiconduttori in carburo di silicio

L’inquinamento atmosferico continua ad avere un impatto significativo sulla nostra salute. Gli alti livelli di biossido di azoto (NO ) e di particolato (PM) sono considerati i rischi ambientali più significativi per la salute pubblica nelle zone urbane. Ciò rende il monitoraggio della qualità dell’aria più importante che mai per promuovere la consapevolezza e le strategie in questo ambito. Il progetto SiC-MOSFET, finanziato dall’UE, sta preparando la commercializzazione internazionale della sua tecnologia dei sensori di gas. Quest’ultima, sviluppata dopo oltre 20 anni di ricerca, si basa sull’uso del carburo di silicio (SiC) per i semiconduttori. Rispetto ad altri sensori attualmente sul mercato, i sensori SenSiC offrono piena funzionalità a temperature molto elevate e in ambienti difficili (dai sistemi di riscaldamento domestico ai motori delle automobili) e sono eccezionalmente sensibili a concentrazioni di gas molto basse.

Obiettivo

Air pollution remains one of the biggest environmental risks to public health in Europe and causes an estimated 422 000 premature deaths per year. Nevertheless, many European countries are still failing to meet air quality standards. Poor human health, heart and lung diseases, reduced labour productivity are all unnecessary consequences that result in additional expenditures for health, environment and penalty payments for excess emissions. SenSIC attempts to address these challenges by offering its gas sensors for harsh environments.

SenSiC’s gas sensor technology has been developed over 20 years of research and is based on the use of Silicon Carbide (SiC) for semiconductors. Unlike existing sensors on the market, the SenSiC sensors offer full functionality in very high temperatures (up to 650C) and harsh environments such as domestic heating systems, process industry, automotive and marine engines etc. Because the sensor semiconductor chip is placed directly in the exhaust gases (in situ), there is no extra cooling delay as with other sensors, and therefore the response is quick. A single sensor unit can detect multiple gases as well as pressure.

Our technology has exceptional sensitivity in very low gas concentrations with a proven long term performance. By measuring gas concentrations, e.g. for NH3, NOx, O2 and CO, it is possible to control the combustion and by that reduce harmful emissions. This leads to a cleaner environment and higher quality of the air we all breath.

The key objective of our project is to transform an initial business plan into a robust strategy for international commercialization and to prepare for a Phase 2 development. With this objective in mind, our Phase 1 project will focus on a more precise market evaluation and developing a plan for future demonstration activities, including reference user and application selection. Through the market part of the feasibility assessment, we will further optimize our go-to-market strategy

Invito a presentare proposte

H2020-EIC-SMEInst-2018-2020

Vedi altri progetti per questo bando

Bando secondario

H2020-SMEInst-2018-2020-1

Meccanismo di finanziamento

SME-1 - SME instrument phase 1

Coordinatore

SENSIC AB
Contribution nette de l'UE
€ 50 000,00
Indirizzo
ISAFJORDSGATAN 39 B
164 40 KISTA
Svezia

Mostra sulla mappa

PMI

L’organizzazione si è definita una PMI (piccola e media impresa) al momento della firma dell’accordo di sovvenzione.

Regione
Östra Sverige Stockholm Stockholms län
Tipo di attività
Private for-profit entities (excluding Higher or Secondary Education Establishments)
Collegamenti
Costo totale
€ 71 429,00