VOC, Volatile organic compound

What is a volatile organic compound (VOC)?

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Pollution in urban areas is a major public health issue. While peaks in the concentration of fine particles often make the news, they are not the only urban pollutants. Volatile organic compounds, or VOC, also present a hazard. Some are carcinogenic, while others react in the atmosphere, contributing to the formation of secondary pollutants such as ozone or secondary aerosols—which are very small particles. Nadine Locoge, researcher at IMT Lille Douai, reviews the basics about VOCs, reminding us that they are not only present in outdoor air.  

 

What is a volatile organic compound (VOC)?

Nadine Locoge: It is a chemical composed primarily of carbon and hydrogen. Other atoms can be integrated into this molecule in variable amounts, such as nitrogen, sulfur, etc. All VOCs are volatile at ambient temperature. This is what differentiates them from other pollutants like fine particles, which are in condensed form at ambient temperature.

Read more on I’MTech: What are fine particles?

How do they form?

NL: On a global scale, nature is still the primary source of VOCs. Vegetation, typically forests, produce 90% of the earth’s total emissions. But in the urban setting, this trend is reversed, and anthropogenic sources are more prominent. In cities, the main sources of emissions are automobiles, both from exhaust and the evaporation of fuel, and various heating methods—oil, gas wood… Manufacturers are also major sources of VOC emissions.

Are natural VOCs the same as those produced by humans?

NL: No, in general they are not part of the same chemical families. They have different structures, which implies different consequences. The natural types produce a lot of isoprene and terpenes, which are often used for their fragrant properties. Anthropogenic activities, on the other hand, produce aromatic compounds, such as benzene, which is highly carcinogenic.

Why is it important to measure the concentrations of VOCs in the air?

NL: There are several reasons. First, because some have direct impacts on our health. For example, the concentrations of benzene in the outside air are regulated. They must not exceed an annual average of 5 micrograms per cubic meter. Also, some VOCS react once they are in the air, forming other pollutants. For example, they can generate aerosols—nanoparticles—after interacting with other reactive species. VOCs can also react with atmospheric oxidants and cause the formation of ozone.

Are VOCs only found in outside air?

NL: No, in fact these species are particularly present in indoor air. All the studies at both the national and European level show that VOC concentrations in indoor air in buildings are higher than outside. These are not necessarily the same compounds in these two cases, yet they pose similar risks. One of the emblematic indoor air pollutants is formaldehyde, which is carcinogenic.

There are several sources of VOCs in indoor air: outdoor air due to the renewal of indoor air, for example, but construction materials and furniture are particularly significant sources of VOC emissions.  Regulation in this area is progressing, particularly through labels on construction materials that take this aspect into account. The legislative aspect is crucial as buildings become more energy efficient, since this often means less air is exchanged in order to retain heat, and therefore the indoor air is renewed less frequently.

How can we fight VOC emissions?

NL: Inside, in addition to using materials with the least possible emissions and ventilating rooms as recommended by the ADEME, there are devices that can trap and destroy VOCs. The principle is either to trap them in an irreversible manner, or to cause them to react in order to destroy them—or more precisely, transform them into species that do not affect our health, ideally into carbon dioxide and water. These techniques are widely used in industrial environments, where the concentrations of emissions are relatively significant, and the chemical species are not very diverse. But in indoor environments VOCs are more varied, with lower concentrations. They are therefore harder to treat. In addition, the use of these treatment systems remains controversial because if the chemical processes used are not optimized and adapted to the target species, they can cause chemical reactions that generate secondary compounds that are even more hazardous to human health than the primary species.

Is it possible to decrease VOC concentrations in the outside air?

NL: The measures in this area are primarily regulatory and are aimed at reducing emissions. Exhaust fumes from automobiles, for example, are regulated in terms of emissions. For the sources associated with heating, the requirements vary greatly depending on whether the heating is collective or individual. In general, the methods are ranked according to the amount of emissions. Minimum performance requirements are imposed to optimize combustion and therefore lead to less VOCs being produced, and emission limit values have been set for certain pollutants (including VOCs). In general, emission-reduction targets are set at the international and national level and are then broken down by industry.

In terms of ambient concentrations, there have been some experiments in treating pollutants—including volatile organic compounds—like in the tunnel in Brussels where the walls and ceiling were covered with a cement-based photocatalytic coating. Yet the results from these tests have not been convincing. It is important to keep in mind that in ambient air, the sources of VOCs are numerous and diffuse. It is therefore difficult to lower the concentrations. The best method is still to act to directly reduce the quantity of emissions.

 

 

confiance numérique, digital trust

20 words for understanding digital trust

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The issue of digital trust has never been more relevant. The 15th IMT Personal Data Values and Policies Chair Meeting, held on 8 March a few weeks before the European general data protection regulation (GDPR) enters into force, was devoted to presenting its book “Signes de confiance : l’impact des labels sur la gestion des données personnelles” (Signs of Trust: The impact of labels on personal data management). Here is a closer look at some key terms surrounding digital trust.

 

API  Application Programming Interface, an interface that enables the user to connect to an application in order to access the data it produces.

Auditability – The availability of proof that information has been supplied in an authenticated and non-repudiated manner.

Audit trail  The complete history of a transaction

Blockchain  Technology that stores and transfers intangible assets without an intermediary in a transparent, secure, reliable and inalterable manner.

Read more on our blog: What is a blockchain?

Confidence  Trust related to a social context and established institutions.

Consortium  Refers to a hybrid blockchain that is not public, involving participants with different rights.

Crypto-currency – Electronic currency used in a peer-to-peer or decentralized computer network that relies on the principles of cryptography to validate transactions and issue currency.

Decentralized autonomous organization –A program that maintains an organization’s governance by embedding it into a blockchain. It involves several smart contracts (see definition below) that interact together.

Decentralized consensus – Mechanisms used to ensure that all the nodes within a network have the same information available and the same overall internal status.

Distributed Ledger Technology (DLT) – Refers to private blockchains and consortia.

Immutability  The property of being inalterable once created.

Ledger  Book of accounts, a register. A blockchain is a decentralized ledger or register.

Oracle  A service that gathers data from one or more services (private or public databases, social networks…) which it submits to be used by smart contracts (see definition below).

Pseudonymity  An individual’s ability to prove a coherent identity without providing a real name.

Side chain  A secondary blockchain attached to the primary one that can be used to increase the (otherwise limited) volume of information the blockchain can process.

Smart contracts  Autonomous programs that automatically apply the terms of a contract without requiring any human intervention once initiated.

Token – Generic name for a transactional information unit within a blockchain, which does not necessarily refer to the idea of currency.

Transaction  Refers to an operation involving the transfer of assets or information between two participants.

Trust  An individual accepting something as true based on a personal frame of reference.

Trusted Third Party  an entity authorized to perform transactions that must remain confidential and secure on behalf of a third party.

To find out more about this topic, check out our series on trust in the digital age.

 

 

 

roaming

The end of roaming charges in the European Union: a cure-all solution?

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Patrick Maillé, IMT Atlantique Institut Mines-Télécom (IMT) and Bruno Tuffin, Inria

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[dropcap]T[/dropcap]he European Union has required wireless network operators to stop charging roaming fees during trips to other EU countries. For nomad users who regularly travel throughout Europe, this added comfort is truly appreciated: no more fears of additional charges.  However, while the benefit is real, some questions about roaming costs remain.

Respecting European unity

Before the end of roaming fees in June 2017, the operator of your mobile plan allowed you to communicate within your country and allowed a maximum amount of internet data you could consume (once depleted, you would either be charged additional fees, or your service would be restricted). Any travel outside your country of origin involved an additional flat-rate fee or charges based on volume. This situation limited communication and went against the European spirit of unity. To remedy this, in October 2016, the European Commission approved a law prohibiting operators from charging their users for communications and data usage while traveling abroad.

The goal of this decision was clearly established: create a single open market for electronic communications. Now when you travel, your usage will be charged to your plan exactly as it is in your country of origin. This means no more fears of extra fees, including for data usage: no need to wait to find WIFI access to use data, 3G and 4G networks can now be used without resulting in bad surprises. This new system required agreements to be made between the different operators and countries that are transparent for users in order to locate mobile phones and direct communications.

To prevent any unfair competition within the EU and prevent citizens from choosing a plan from the least expensive country, the rule was established that users must take out a plan in their own country, which is defined as the country where they spend the most time. In addition, roaming usage must be “reasonable”.

Completely free roaming?

As mentioned, “free” roaming is guaranteed by the law only “within a reasonable limit of use”. Specifically, operators can set a roaming limit for mobile internet usage without additional fees in order to prevent usage and associated costs from rocketing. However, this limit must be controlled by the regulation and the user must be clearly informed. The framework for this application is therefore not necessarily the same abroad as in the user’s country. In addition, the roaming rules only apply to services within the European Economic Area (EEA); therefore your plan may include services intended for countries outside the EEA which will only apply if you are in your country of origin.

It is also worth noting that there is still a missing step to truly achieving a single market and real freedom within the EU. In general, calling another EU country from your own country is not including in your mobile plan and incurs additional costs, so there is a distinction that is made within the European Community. Similarly, if you make a call while traveling, the call is not counted within your plan, but is charged as if you were calling from your country of origin, which could potentially be outside your plan, and yet it would be natural to be able to call to make a reservation at a restaurant without paying extra fees.

Therefore, integrating these additional aspects, in other words no longer differentiating between a call from or to another EU country, could be the final step towards achieving a fully open market perceived by users as a single market.

A risk of rising rates?

Another aspect to monitor is how this new rule will impact the rates of users’ plans: is there a risk that this will lead to a rise in prices, as an averaging effect in which those who rarely travel will have to pay for those who travel frequently? This potential risk was brought to light in scientific publications through theoretical modeling and game theory. The operator’s income could also decrease. It is still too soon since the application of this new regulation to effectively assess its impact, yet all these reasons clearly show that we will need to pay special attention to how prices change.

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The ConversationTo learn more :
– P. Maillé and B. Tuffin (2017) « Enforcing free roaming among UE countries : an economic analysis »,  13th International Conference on Network and Service Management (CNSM), Tokyo, Japan, Presses de Sciences Po.
– P. Maillé and B. Tuffin (2017), « How does imposing free roaming in EU impact users and ISPs’ relations ? », 8th International Conference Network of the Future, London, UK.

Patrick Maillé, Professor, IMT AtlantiqueInstitut Mines-Télécom (IMT) and Bruno Tuffin, Director of Research, Inria

The original version of this article (in French)  The Conversation

Koovea

Koovea: an intelligent system for monitoring temperature-sensitive drugs

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Koovea offers a service for monitoring temperature-sensitive drugs that ensures safe packaging conditions throughout the entire shipping process. The startup has just raised €60K through Créalia Occitanie. The interest-free loan will help the startup finance its R&D and strengthen its own capital before launching its product in June 2018.

 

One out of every two drugs is temperature-sensitive. These fragile and expensive drugs are vulnerable to alterations during shipping if the cold chain is broken. This could result in serious consequences: time lost in transit, significant financial loss for the laboratories, safety risks for patients if they consume altered, ineffective or even dangerous drugs. In response to this problem, Koovea has invented a connected tracking and recording solution that reports data in real time.

Adrien Content and his associates worked together for two and a half years to develop this solution. The incubator and mechatronics platform at IMT Mine Alès provided the startup with the support it needed to overcome technical challenges and create a prototype. This dual assistance combining both economic and technological support helped structure the company as it developed and offered the opportunity to present its innovation at the Las Vegas Consumer Electronic Show (CES) in January 2018.

From manufacturing to use, the integrity of the cold chain is guaranteed

Koovea’s solution makes it possible to track the temperature and location of batches of drugs in real time, providing an opportunity to react if necessary. Its major benefit is that it sends warnings if it detects a deterioration in storage conditions for a supply of products.  The young company’s solution is based on three elements. First, it relies on a flexible temperature sensor the size of a credit card, which features a system for recording and displaying data.  This sensor is complemented by an intelligent and self-reliant router which can report data in real time, anywhere in the world. Finally, a “Koovea” application provides an optimal solution for sharing and using this data.

The device is currently in the midst of a full-scale test phase in the French Hérault department. It has already proven its appeal by winning several awards: Coup de Pousse 2016, Bourse French Tech Emergence 2016, Booste Ton Projet 2016. Today, the startup’s growth has reached a new milestone thanks to the interest-free innovation loan it received from Créalia Occitanie.  Koovea makes no secret of its desire to become a benchmark in the intelligent monitoring of drug product. It then hopes to branch out to include other costly and sensitive products.

Better monitoring solutions for fragile and expensive products

Koovea’s solution is an interesting one for stakeholders in the medical sector: specifically, for laboratories and transport systems for blood, bone marrow and organs. Yet other sectors could also benefit from intelligent real-time monitoring. All the sensitive and expensive products handled in the agri-food sector, viticulture, cosmetics, luxury market and the art world could benefit from this type of solution. This is especially true since Koovea aims to extend its range to integrate other controlled parameters, such as brightness and humidity.  This expansion would pave the way for numerous fields of application. The data could even make it possible to predict the time, place and circumstances under which a product was altered.