HYCOOL Held Its (Virtual) General Assembly on 17th November 2020

After two years and a half since the start of the project, HYCOOL partners met for its 5th General Assembly. The leaders of each on-going Work Package had a presentation about the progress of their work and planned for the next period, considering risks, opportunities and challenges.

The HYCOOL team is excited on announcing that pilot implementation has already started. The construction of the technical rooms at the Givaudan demo site are nearly completed, which will allow to start the installation of the technology provided by FAHRENHEIT, AIT and ECOTHERM in the upcoming weeks. At the Bo de Debò demo site, the civil works for the technical room have already started and will be completed shortly.

We will keep an eye on the pilot progress for the next months!

Start of the works to launch the pilots

At the end of last September, the pilots of the HyCool project (Industrial Cooling through Hybrid system based on solar heat) began their way to start-up. In this initial phase of project execution, the two demonstration sites have started the civil works with which the necessary infrastructures are built to house the equipment and all parts of the system. These works are developed on the following fronts: 

    1. Givaudan: installation of the solar field on a plot adjacent to the plant; construction of a prefabricated technical room next to the solar field that will provide water vapor to the production plant from solar energy and with the technology supplied by Ecotherm; construction of the technical room that will supply cold to the plant, using absorption pumps built by Fahrenheit.

      Solar Field place at Givaudan pilot site

       

      Slab for the Solar field Equipment Room (Ecotherm)

       

      Construction of the Fahrenheit Equipment Room

       

  1. Bo de Debó: installation of the solar field on one of the warehouses of the production plant; construction of the technical room that will house the hot and cold water production system using Fahrenheit absorption and hybrid pump systems and Ecotherm solar technology.

Bo de Debó Technical Room works

The construction works are expected to be completed by the end of November 2020, giving way to the installation and commissioning stages of the HyCool systems, whose commissioning is expected in mid-June 2021. 

HYCOOL scientific poster and paper for EuroSun 2020

 

On September 1st , 2020, HYCOOL partner, CNR ITAE, presented the project at EuroSun 2020.

EuroSun 2020 offers a platform to discuss the latest developments with leading solar energy experts as well as policymakers and industry representatives. CNR ITAE presentation included:

  • A poster on ‘Experimental evaluation of a hybrid adsorption-compression cascade chiller for solar cooling applications in industrial processes’.
  • And the publication of the scientific paper ‘Experimental evaluation of a hybrid adsorption-compression cascade chiller for solar cooling applications in industrial processes’, which will be included at the ISES Conference Proceedings Database.

Download the paper here and the poster here.

Further information about the event is available here.

 

We have been showcased @CORDIS_EU

Our project aiming to increase the use of solar heat in industrial processes has been featured at cordis.europa.eu, the European Commission’s primary source of results, news, and information on EU-funded research projects. The article shows how we are boosting the concept on the cheap and easy-to-install linear Fresnel system, which basically consists of many mirrors in parallel rows, that imitate a large Fresnel Lens, to augment solar energy acquisition. This concentrated solar power system (CSP) is coupled with tailor-made hybrid heat pumps (HHPs) that enable “both industrial heating and cooling powered by the sun” as our project coordinator, Silvia Jané, has explained.
Quoting the article:
“At the Spanish production site of consortium partner Givaudan, a flavors and fragrances company, the HyCool concept has been applied to several processes with either heating or cooling needs. Givaudan’s current cold installation makes use of a glycolic water chiller to keep the water entering the liquid ring of the vacuum pumps at 7 °C, with a thermal demand of 125.5kW. ”For the use cases considered, the electrical consumption of the compression chiller will be reduced by 29 % (spring) and 44 % (summer), respectively, by using HyCool technology,” says Jané This efficiency gain is even higher if compared to common refrigeration systems”.
We are advancing this technology and systems to promote energy efficiency for industries.

Hycool at the Ecomondo Fair

Our Third GA took place in Rimini, Italy, strategically, to present the Hycool project at the Ecomondo Fair and to create awareness of our Solar Heating and Cooling Solutions.

R2M presented Hycool at a workshop held at the Girasol Room on November 6th, 2019. This workshop included a conference and round table, where more or less 40 participants had the occasion to learn about Hycool’s technology and potential.

The project’s partners CNR ITAE, Givaudan, and R2M Solution presented very interesting information raising interest among the attending technical stakeholders responsive to offer energy efficiency and renewable energy solutions to their customers in the future.

The round table offered the participants the opportunity to learn more about the state of the art of energy efficiency in industry and concrete best practices of business models to finance energy audits and continue investing in efficient and renewable energy with a focus on the Italian market.

It must be said that organisers and attendees were quite happy by the workshop’s success in such a huge fair where the project competed for attention with big names like Shell and well known Italian institutions. 

Project partner @TechnologyComet recorded the event. The video with English subtitles can be found on the following link: Click to watch the video 🙂

 

 

 

Additionally, R2M also set up a booth inside the Key Energy section as a way to share more information to the fair’s public and to raise awareness on the benefits of Hycool’s industrial solar heating solutions.

 

 

Download the presentations from the workshop below:

 

 

 

Hycool’s 3rd General Assembly in Rimini

Rimini, a beautiful Italian city on the Adriatic coast served as the center of operations for the third meeting of the Hycool consortium, celebrated between November 5th and 6th. This location was chosen to also boost the project’s dissemination activities at the Ecomondo fair, especially under the KeyEnergy section; one of the two main exhibition events on renewable energy and energy efficiency in Italy. 

 

 

During the meeting, technical advances regarding the installations that will be made at the pilot sites were discussed. Those advances concerned the choice of the absorber material, the monitoring of the material’s degradation, as well as the integration of the system CSP including energy management tools. The consortium also discussed the system integration for the high-performance solar heat pump components. Decisions were also made regarding the demonstration activities to be made in the future.

 

 

 

 

Three insights on the development of the hybrid heat pump

The hybrid heat pump constitutes one of the core elements of the HyCool solution for solar cooling in industry and, therefore, its optimal design is crucial to achieving high performance of the overall system. Since the very beginning of the project, the Fahrenheit team has been working on a prototype of the hybrid heat pump with the goal of obtaining highest efficiency while keeping the machine simple and reliable. In the early spring of 2019, the first prototype HyCool XHHP01 was ready for testing. The results of the tests performed by CNR have shown a very good performance of the prototype and have indicated a few areas, which still needed improvement. Currently, the Fahrenheit team is making use of the time left before the installation of the pilot sites to optimize the functionalities of the hybrid heat pump. Three members of the team explain to us the general concept of the hybrid heat pump, how they want to optimize the prototype, and what challenges are still ahead of them.

After the tests at CNR’s premises in Italy, the prototype HyCool XHHP01 came back to Germany, where the Fahrenheit engineers are working on further improvements in the design of the hybrid heat pump.

 

The hybrid heat pump constitutes one of the core elements of the HyCool solution for solar cooling in industry and, therefore, its optimal design is crucial to achieving high performance of the overall system.

 

Eliza Nowak, Project Engineer at Fahrenheit GmbH, on the general concept of the hybrid heat pump

The term “hybrid” refers to a combination of two or more interconnected and co-operating heat pumps based on different principles of operation. In our case, the developed prototype consists of an adsorption and a compression heat pump connected in such a way that the evaporator of the adsorption unit cools down the condenser of the compression one. This lowers the condensation temperature below the one resulting from the outdoor conditions. Lower condensation temperature means higher EER (Energy Efficiency Ratio – ratio of the delivered cooling capacity to the consumed electrical power) of the compression chiller. Of course, to make this layout feasible, the savings of the electrical power consumption of the compressor due to higher EER should be higher than the additional power consumption of the adsorption unit and its auxiliaries.

Doreen Acker works on the changes in the control software of the hybrid heat pump.

Doreen Acker, Software Developer at Fahrenheit GmbH, on the prototype optimization

In terms of the control software optimization, we are implementing two changes in the HyCool XHHP01 prototype. The first one is the introduction of a free cooling mode, to allow the use of low external temperatures for cooling of the compression unit’s condenser. In brief, in the free cooling mode the condensation heat of the compression chiller is dissipated directly to the ambient air via the dry cooler. If the outdoor temperatures are low enough to ensure the condensing temperature of the compression chiller as low as or lower than with the use of the adsorption chiller, which happens mostly in winter and during night time, the system will operate more efficiently in the free cooling mode. The operation of the system resembles the standard operation of the compression chiller and saves the electrical power needed to drive the circulating pumps of the adsorption chiller. Thanks to the clever hydraulic connections in the adsorption unit, we can implement this new operation mode through a software update without the need to rebuild anything in hydraulics. The second change is the optimized start-up procedure. After the tests performed by the colleagues from CNR, they suggested that the compression unit should be started when the temperature in the cold water circuit of the adsorption unit reaches a specified threshold. In this way, we will ensure favourable conditions for the operation of the compression unit at all times.

René Weinitschke, After Sales & Factory Service Engineer at Fahrenheit GmbH, on the data logging and Cloud solutions

René Weinitschke is responsible for the implementation of Cloud solutions for data logging.

In order to evaluate the performance of the hybrid heat pump, we have to perform measurements and collect meaningful data. Some of the measurements will be carried out by the main control system based on the sensors installed on the pipelines but there are also quite a few sensors installed inside the prototype. The values from these sensors will not be sent to the main control system; rather we plan to collect them in the Cloud. We have not used this technology so far, but its implementation in our commercial projects is one of our priorities. It will not only help our After Sales services, but also contribute to our technology development. HyCool is a great opportunity for us to test this solution! From the beginning, we have to place great emphasis on the data security, especially because the pilot plants will be installed in “real-life” factories.

According to the current execution plan, the optimized prototype of the hybrid heat pump is going to be delivered to the Bo de Debó demo site in October 2019. After proper installation and commissioning, the operation of the hybrid heat pump will be monitored for 12 consecutive months. Based on the collected data the Fahrenheit team will evaluate its performance. It is expected that due to the optimization measures implemented, the prototype will show even better performance than what was achieved during the first tests at CNR.

 

Meet the Pilot Sites: Givaudan

Article by Givaudan

By maximising the use of renewable energy through its unique technology, HyCool aims to minimise greenhouses gas emissions. Givaudan, which itself has a target of reducing absolute Scope 1 and 2 GHG emissions by 30% between 2015 and 2030, is proud to host one of the project’s two pilot sites at its Sant Celoni plant. Givaudan spoke to Jorge Vilaseca, local Project Engineer, to get an update.

HyCool Pilot: Givaudan’s Sant Celoni Site

Why did Givaudan decide to participate in this project?

The idea was to test HyCool in at least two industries using significant amounts of cooling in their
processes and Givaudan offers a great profile to host one of the pilot sites as a representative of
the chemical industry. We couldn’t pass up the opportunity to participate in this innovative project.
HyCool is particularly attractive to Givaudan for two main reasons. First, our sustainability strategy
A Sense of Tomorrow includes ambitious environmental targets. This project will help us reduce
GHG emissions by a projected 3% for the site and decrease energy consumption in terms of
electricity and gas, helping us towards our goal of 100% renewable electricity by 2025. The
project is totally aligned with our sustainability strategy. Secondly, every Givaudan production
plant needs heating and cooling, and it would be relatively easy to replicate this technology.
HyCool should deliver refrigeration with 25% greater efficiency—this would provide Givaudan a
competitive advantage.

How far along are we in the project?

We have finished the conceptual phase: we have decided where and how to use the cooling
produced, where to install equipment and how to connect it. Now we are looking at detailed
engineering: how to best connect materials, figuring out the best design for the electrical
connections, etc. The one-year installation phase will then start this summer.

What requirements did Sant Celoni have to take into account when planning installation?

One issue was finding a place to install the solar collectors. They require more than 1, 000 m2 of
surface, preferably over a roof. Because of a lack of surface on our buildings, and for safety
reasons, mainly the presence of flammable products, this wasn’t possible, and we had to install
the solar field at ground level. This caused problems such as how to manage shadows of other
buildings that we had to solve.

We also have to comply with all EHS requirements including ensuring a good works plan for
execution. We expect a number of external contractors and companies on site during installation
and we will need to monitor all aspects of their work. We will need to ensure a pre-start safety
review, issue corresponding work permits and make sure we prevent injuries and accidents: we
want to ensure that “Everyone gets Home Safe Everyday”.

Givaudan, which itself has a target of reducing absolute Scope 1 and 2 GHG emissions by 30% between 2015 and 2030, is proud to host one of the project’s two pilot sites at its Sant Celoni plant.

How did consortium partners contribute?

During the initial phase, we worked closely with the equipment companies and engineering and
general contracting partners. This has been a real team effort.

What are the next steps for Givaudan as a pilot site?

The next steps are to finish the installation on time, on budget and safely and then to operate the
machinery and collect data on energy efficiency and ease of use. We have two years of hard work
ahead, but it will be stimulating. As to transferring the technology to other sites – why not? If it is
cost effective, we will be able to use it in countries with even more favourable weather conditions
such as Mexico, South Africa or Singapore.

This interview is also available at Givaudan’s website.

Industrial cooling based on solar heat at the demo sites

Article by Alex Grande, from IDP

Powering of industrial processes, if based on renewable technologies, may offer greater potential for CO2 emission reductions. Solar thermal energy is a promising sector which has been widely studied during the last two decades, becoming a candidate of the highest potential among renewable energy technologies, especially for industrial heating and cooling processes, because some technologies, such as heat pumps and mechanical vapour recompression, are particularly effective in hybrid systems.

The use of direct solar heat in industry is often hampered by barriers like lack of nearby available surface and seasonal imbalances. However, recent solar steam developments applied in the cooling demand services is growing worldwide with a wider variety of use, mainly within the industry. Some technologies, such as heat pumps are particularly effective. The two demonstration sites selected to tests Hycool system (Bo De Debó and Givaudan) are industries where custom-designed packages will be built, installed and tested.

Bo De Debó is a specialised industry in preparing precooked fresh dishes based on meat, fish and vegetable products, for being frozen, vacuum-packed or canned, and then sealed. In this site, Hycool will pre-cool the water in a buffer tank where it should be cooled down with other chiller in order to get 3-5ºC needed for the production of “gazpacho” (a kind of vegetables juice) and food washing processes. The residual heat from the system will be used to produce hot water for cleaning operations.

CSP-Panels to be installed in the roof of Plant 3, in Bo de Debo facilities in Sant Vicenç de Castellet

Givaudan is the global leader in the creation of flavours and fragrances. In close collaboration with food, beverage, consumer product and fragrance partners, Givaudan develops tastes and scents that delight consumers the world over. The Hycool system will provide the cold water needed to refrigerate the glycol stored in a buffer tank before it’s pumped to the vacuum pump water rings. The residual heat from the system will be used to produce steam to be injected in the factory net.

The old chilling system that will be substituted for the Hybrid Heat Pump from the new Hycool system, in Givaudan facilities (Sant Celoni – Spain).

In summary, the solar thermal energy provided by the Hycool System will allow our pilot sites:

  • To reduce their productions costs by using a free source of energy
  • To increase their system efficiency by using the residual thermal energy for producing heat water or steam
  • To reduce their global CO2 emissions by reducing the use of fossil fuels for producing that heat

HyCool’s 2nd General Assembly in Austria

The HyCool Consortium visited Feldkirchen a.d. Donau, near Linz, Austria On May 28th and 29th for its 2nd General Assembly. The meeting was hosted by Ecotherm and held in the picturesque Schloss Muehldorf hotel.

The two-day meeting allowed all partners to evaluate the progress and work done with each work package and see where the project stands after it’s first year. Highlights included the status of design and test of the HHP prototypes for the demo sites, the protocols for testing the adsorber materials, the final design and time table for deployment and execution of the technologies in the demo sites, and a review of the exploitation and communication activities to date.

The proximity to Ecotherm’s premises also allowed the consortium the opportunity to do a technical visit. The consortium had the opportunity to see first hand how they produce the water tanks and take a look at the solar panels installed in their rooftops, which include the Fresnex soalr collectors that will be deployed at HyCool’s demo sites.

The meeting ended having established clear goals for the next 6 months and looking forward to the work ahead.