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IIR document
A methodology to measure the rates of air infiltration into refrigerated compartments.
Application of a new method to quantify local air-side heat transfer coefficient on fundamental geometries.
Merení intenzity vetrání metodou znackovacího plynu CO2. 2.
Ventilation measurements using CO2 as a tracer gas. 2.
Relative decrease of tracer gas concentration as a measure of the ventilation effectiveness.
Monitoring hydrofluorocarbon refrigerant leakage from air-conditioning systems in buildings.
Visualisation and quantification of the air flow pattern in ventilated spaces by using image analysis.
Air infiltration into refrigerated stores through rapid-roll doors.
EFFICIENT VENTILATION OF SMALL ROOMS.
METHODE DE MESURE DU RENOUVELLEMENT D'AIR DES GRANDS HALLS.
EXPERIMENTAL DETERMINATION OF AIR INFILTRATION IN LARGE ROOMS.
Air infiltration through loading dock truck-trailer doors.
Determination of air distribution in inaccessible rooms with carbon dioxide as a tracer.
Review of airflow measurement techniques: annotated bibliography 12.
A study on the performance evaluation of hybrid ventilation systems with a heat exchanger. 1. Experimental evaluation of a ventilation system using the tracer gas method.
[In Japanese. / En japonais.]
Contribution à la qualification des systèmes de ventilation des bâtiments : intégration d'éléments perturbants.
Contributing to the qualification of building ventilation systems: integrating disruptive elements.
Refrigeration sector monitoring
2 results
Inauguration of the largest LNG-powered cruise ship
In November 2022, MSC Cruises held a naming ceremony for MSC World Europa, the world’s largest LNG-powered cruise ship and one of the first to incorporate fuel cell...
The life cycle of fluorocarbons: case studies
The Climate and Clean Air Coalition has published a guide for policymakers in which good practices regarding the life cycle of fluorocarbons are discussed. Concrete examples of refrigerant recycling in...
IIR news
Join the ENOUGH project webinar!
Funded by the European Union’s Horizon 2020 research and innovation programme, the ENOUGH project aims to address and reduce emissions from the food sector. Join the project webinar on December 1.
ENOUGH – a new project that will identify how food industry can become net zero by 2050
The project will develop technologies, tools and methods to contribute to the EU’s farm to fork Strategy to achieve climate neutrality in the food industry.
Encyclopedia of Refrigeration
1 result
Cryogenic nitrogen in the food and beverage industry
The adoption of cryogenic processes in the food and beverage industry is predominantly driven by liquid nitrogen (LIN), and it is the preferred candidate for food chilling and...