Clark Wine Center

Bldg 6460 Clark Field Observatory Building,
Manuel A. Roxas Highway corner A Bonifacio Ave,
Clark Air Base, Clark Freeport Zone, Pampanga, Philippines 2023
Clark, Pampanga: (045) 499-6200
Mobile/SMS: 0977-837-9012
Ordering: 0977-837-9012 / 0917-520-4393
Manila: (632) 8637-5019

Chemical and Sensory Profile of Barrels Heated by Immersion Pror to bending

June 23, 2011
Barrel ageing is a key stage in producing great wines. Two major phenomena occur during barrel ageing: one consists of oxidation of certain substances in wines due to oxygen penetrating into the barrel and the other is the diffusion of extractable compounds from oak wood into the wine. These substances modify the wine’s aromas and flavors, adding complexity and hints of “coconut,” “toast,” “vanilla” etc.3

Once the extractable compounds from the wood have been released into the wine, they may be modified by chemical and enzyme reactions.7,9,10,11,2,4 Furthermore, the macromolecular structure of oak wood may absorb certain constituents from the wine.1,8 These phenomena result in marked organoleptic changes in the wine.

The complexity of barrel-ageing phenomena and their impact on wine quality make these containers valuable winemaking tools. Winemakers’ objectives change to suit market tastes. The current trend in the winemaking world is to make barrel-aged wines with complex, fruity flavors, and relatively discreet oakiness. This trend is most marked among independent winegrowers, who want their wines to express their terroir, rather than any “universal” taste.6

Some coopers use immersion in hot water to prepare the raised (assembling of the staves in the shape of the barrel before staves are bent and heads are inserted) barrels for bending, but this process is much less widespread than traditional heating over a wood fire.

The immersion method consists of soaking raised barrels in hot water, then bending the staves rapidly to form the barrel before it is

toasted. The only difference from the traditional process is that heating over a fire prior to bending is replaced by immersion in water, and then the process continues with toasting.
The first objective of this technique is to reduce stavewood breakage with water immersion before bending, to minimize the waste of broken oak staves occurring from bending following heating over an open fire.

However, this is by no means the most important aspect of the process. The adsorption of water by wood, extraction of wood components, and heat transfer in the wood-water system formed by immersing the barrel in hot water, then toasting wood with a high humidity level drive different kinetics in the production of compounds from toasting and degradation of wood compounds over fire from those that occur after traditional fire bending prior to toasting.

It is noteworthy that during traditional fire toasting coopers spray some water on the inside of the barrel in order to prepare the barrel for bending. However, contrary to water immersion, this operation does not allow any significant changes in wood composition, the moisture content remaining stable.

Wines aged in barrels where the staves have been bent following hot water immersion are empirically perceived to be less marked by oaky aromas. However, to date, very little scientific data was available concerning the impact of this bending technique on wood/wine exchanges, thus making it impossible to explain the sensory differences noted in empirical observations.
This report presents the results of a two-year comparative study of the two stave bending techniques, focusing on the sensory profiles of wines aged in the different types of barrels and their concentrations of volatile molecules.
MATERIAL AND METHODS
Barrel production
The barrels were made by Tonnellerie Seguin Moreau (Seguin Moreau Burgundy ZAC du Pré Fleury les Creusottes Nord, Chagny, France) using staves bent either following immersion or by heating over a fire (see Figure 1). All barrels were produced from one batch of French fine grain oak.
In the “traditional process,” raised barrels are preheated (A) for 10 to 15 minutes to a temperature of 100° to 120°C to soften the wood fibers and make them pliable. This process does not cause any major production of compounds arising from toasting; indeed,
any modifications are insignificant compared to those that occur during the toasting stage.
In the process employing bending by “immersion,” the preheating stage (A) is replaced by soaking in hot water (B). The temperature of the water does not exceed 100°C; production of toasting products due to heating are negligible.
Toasting – The heating process that causes chemical modifications in the wood was performed according to the standard “medium-long” protocol used in the cooperage. This stage was identical, irrespective of the type of bending process: heating over a fire or by immersion.
Wines
Trials occurred on nine sites with nine wines (three white wines and six red wines) from two different vintages: 2007/2008 (Table I). Wines were either barrel-fermented or put into barrel before or after malolactic fermentation. There were three barrels in each wine lot.
Sensory analysis
Sensory analysis by a tasting panel of Seguin Moreau staff (panel I of 8 to 14 persons), and a trained panel of enology students from the Institut Universitaire de la Vigne et du Vin (panel II of 16 to 18 persons), was done at regular intervals, as described in Table I.
Panelists performed blind quantitative descriptive analysis using a standard list of descriptors including six odor (overall oaky, fruity, sawdust, vanilla, toasty, spicy) and five taste descriptors (acidity, bitterness, tannic intensity, structure, length). The sensory sessions were organized by series with the same wine aged in fire-bent and immersion/fire-bent barrels. The order of presentation was arbitrary and different for different panelists to obtain more objective data.
The tasting sessions were conducted in tasting rooms following the usual practices in wine tasting and were conducted by a session observer. Before the sensory analysis, the bottle was tasted in order to look for possible off-flavors and was rejected if there was an abnormal odor.
Panel members awarded 0 to 10 points according to the intensity of each descriptor (0 – very weak, 10 – very strong).
The values given by each taster were normalized using the average value for that taster over the entire series. The Independent Student’s T-test was applied to the normalized values to identify the descriptors for which there was a variation in intensity between the barrels made using “immersion” and the “traditional process.”
Only those descriptors showing differences with a probability below 5% were retained for further processing.
Analysis of volatile compounds
The following 19 odoriferous volatile molecules from oak wood were assayed in the wines using GC-MS:3
• furan and pyran compounds (furfural, 5-hydroxymethyl-furfural, 5-methyl-furfural, furfuryl alcohol, maltol, and ethyl maltol) – class of compounds characterized by toasty and butterscotch odors in pure state;
• aromatic aldehydes (vanillin and syringaldehyde) – class of compounds characterized by vanilla/woody odors in pure state;
• volatile phenols (guaiacol, 4-methyl-guaiacol, eugenol, isoeugenol, o-cresol, m-cresol, phenol, syringol, and allylsyringol) – class of compounds characterized by smoky, phenol and spicy odors in pure state;
• lactones (trans- and cis-whisky-lactones) – class of compounds characterized by coconut and woody odors in pure state.
Under the reducing conditions in wine, furfural tends to be converted into furfural alcohol, so the “total furfural” content was calculated (combined concentrations of furfural and furfural alcohol).
These analyses were carried out at regular intervals, as shown in Table 1.
Preliminary studies had revealed that the wine matrix (variety, wine composition, and use of barrel such as presence of lees, oxygen, etc.) played an important role in determining the concentration of substances extracted from the oak.5 Consequently, it was not possible to apply the standard Student’s T-test to assess the difference in impact between the “traditional” and “immersion” processes.
The Student’s T-test for paired samples (immersion compared to traditional process) was used. The difference between the concentration of molecules released by oak wood in the two types of barrels was calculated for each type of wine. This test, to determine whether the average of these differences was significantly different from 0, consisted of comparing pairs of samples taken from the same wines aged in barrels produced by bending following immersion and the traditional process.
RESULTS
Sensory analysis of wines
Descriptors with significant differences in intensity (risk threshold less than 5%) are presented in Table II. The “+” sign indicates that the intensity of the descriptor was higher
following heating by immersion and the “-” sign that it was higher in the control (fire bending).
One can observe a lack of agreement between panels I and II for wine-1, 2, 3, for some common descriptors found (toasty for wine -1 and sawdust for wine -2). The only wine where students and staff had similar findings was Wine-8. This fact shows the different perception of sensory differences between wines analysed by each panel. That is why the analysis of all of the study data is required in order to establish a common and rigorous conclusion.
Certain descriptors were used very frequently in different tasting sessions to describe various wines. This led to the assumption that heating by immersion produced systematic differences compared to the controls, irrespective of the type of wine or the period when it was tasted by the tasting panel.
To verify this hypothesis, the probability of the significant differences for each descriptor used for all the wines studied were calculated, assuming that the probability that the significant differences for each descriptor given in a specific case (wine X tasting) was 5%, to reflect the risk threshold of 5% chosen
for the sensory analyses. The other assumption was the independence of the events (tasting sessions). The results are in Table III.
Table III shows the frequency of use of descriptors where intensities were higher:
• for fire bending (fire bending line)
• for water bending (water bending line).
For example, the occurrence of oaky descriptors in both parts of Table III means that the oaky descriptor was significantly more intense for traditional process in 10 tasting sessions during the entire study, whereas it was more intense for water-immersion in one tasting session. The probability calculated reveals that 10 uses for the first case is an indicator of systematic difference, while one single use for the second case is not.
Analysis of these results revealed that the main differences concerned the olfactory descriptors. The “toasty” and “oaky” descriptors were significantly more intense when the raised barrel was preheated over a fire compared to heating by immersion. The other marked difference was that the intensity of the “fruity” descriptor was significantly higher following preheating by immersion.
Differences with a lower confidence level were observed for the “sawdust” and “acidity” descriptors, with slightly higher intensity for “sawdust” after traditional heating.
In contrast, the “acidity” descriptor was also apparently significantly more intense following preheating by immersion in a certain number of sensory analyses. Thus, on the basis of the findings presented in this article, it was not possible to draw any systematic conclusion concerning the difference in intensity of this descriptor, as the results depended on the type of “wine matrix” and the length of ageing time, rather than the bending process used.
There was no significant difference between the intensity of the other descriptors, especially those describing flavors.
Chemical analysis
Table IV shows the Student’s T-test results for paired samples (preheating by immersion compared to fire). They include the main differences of concentration of each compound between wine aged in traditional fire-bent barrel and paired wine which was aged in barrel preheated in water before bending. Thus the values of differences could be positive and negative. A positive difference indicates that a higher amount of chemicals is found from the traditional process, whereas a negative difference from water immersion before bending.
Table IV includes the standard deviations of differences between samples and values of paired samples T- test in order to check whether distribution of differences is different from 0. The low T-test p values means that the difference is systematic across all pairs. Such values are presented in bold characters in Table IV.

These results revealed that ageing wines in barrels made by the traditional process resulted in wines with higher concentrations of compounds produced by heating/toasting, particularly furan compounds (furfural, 5-hydroxymethyl-furfural, 5-methyl-furfural), volatile phenols (guaiacol, 4-methyl-guaiacol, isoeugenol, and allylsyringol), aromatic aldehydes (vanillin and syringaldehyde), and maltol.
In contrast, wines aged in barrels heated by immersion had higher cis-whisky-lactone content.
Conclusions
Analyses of the volatile compounds in the wines confirmed that the main differences between the two processes concerned the concentrations of toasting compounds produced by heat/toasting: furan compounds, volatile phenols, and aromatic aldehydes. Wines aged in barrels made by the traditional process had higher concentrations of these compounds. On an olfactory level, wines aged in barrels heated by immersion exhibited less intense “oaky,” “toasty” and, to a lesser extent, “sawdust” aromas. Tasters also found these wines “fruitier.”
Analysis confirmed that the main differences between the two processes concerned the concentrations of toasting compounds. As we shown previously, the production of toasting compounds is an improbable process during the preheating stage (prior to bending) because of low temperature irrespective for fire or water process. That is why the possible explanation of difference consists in the different moisture content, which was higher for water immersion. The evaporation of additional water in the latter case decreases the quantity of calories transmitted to wood during toasting. This “loss of energy” reduces the degree of degradation of wood hemicelluloses and lignin and the production of respectively furan and pyran compounds and aromatic aldehydes and volatile phenols.

Acknowledgements
The authors wish to thank Bérangère Perez, Pauline Lamblin, Diane Gounel, and Morgane Jestin, enology students at the Institut Universitaire de la Vigne et du Vin “Jules Guyot” for their technical assistance in setting up the experiments, and the winemakers and technical managers of the estates where the experiments were carried out.

Source: http://www.practicalwinery.com/novdec10/waterBending5.htm

Best place to unwind in Angeles City Pampanga Philippines is to do a little wine shopping at the Clark Wine Center which is also considered as the best place in Clark for private wine tasting, small parties and social functions outside of Manila. Guests of this wine shop in Clark enjoy the cozy ambience as well as the privacy and exclusivity of the roof deck lawn. Some guests that wine and dine at the famous restaurants near Angeles City Pampanga often drop by this wine shop to pick up a few good bottles for diner. Residents and guests staying in Pampanga Angeles City and Subic frequently visit this wine shop in Clark to buy some bottles from its fine selection of vintage wines that are offered at attractive prices. Some guests, business executives especially, select this wine shop for their business entertainment.

This wine shop in Manila Philippines makes wine shopping a really rewarding and exciting exercise. Wine shops in Pampanga should always have an element of surprise so that customers and wine lovers can enjoy a little bit of thrill when they go to a wine shop in Manila to look for a good bottle of wine in Clark Pampanga.

Chateau Lafite-Rothschild is the most revered wine in China and many other parts of Asia. The best wine shop in Asia to buy older vintages of Chateau Lafite is Yats Wine Cellars located in Clark Philippines. Aside from Lafite, visitors can buy other fine wines at this wine shop in Clark Pampanga such as Latour, Mouton-Rothschild, Haut-Brion and Margaux. Excellent Burgundy wines like Chambertin, Vougeot, Musigny, Bonnes Mares, Pommard, Meursault, Chambertin, Vosne Romanee, Romanee Conti, La Tache and Romanee St. Vivant can be found here.

Family outings, picnics, company outings and other events for up to 300 can be held in the picnic grounds of this wine shop. Events that have been successfully organized here include family fun days and BBQ picnics. These are some of the things that visitors to Clark Philippines particular look forward. Residents and tourists in Angeles City and Subic also come to Clark Freeport to partake in the fun at this Clark wine shop.

This wine shop’s vast selection of vintage wines makes it possible for Yats Wine Cellars to offer a unique line-up of wines for every private wine party, wine tasting or wine dinners. Guests of these private wine parties are treated to a rare experience of vintage wine not seen in wine shops in major cities in Philippines or even in Asia.

http://www.ClarkWineCenter.com

Getting to this wine shop in Pampanga Angeles City Clark Freeport Zone Philippines from Manila
Getting to the Clark Wine Center wine shop from Manila is quite simple: after entering Clark Freeport from Dau and Angeles City, proceed straight along the main highway M A Roxas. Clark Wine Center is the stand-along white building on the right, at the corner A Bonifacio Ave. From the Clark International Airport DMIA, ask the taxi to drive towards the entrance of Clark going to Angeles City. From Mimosa, just proceed towards the exit of Clark and this wine shop is on the opposite side of the main road M A Roxas.

Best place to buy wine in Clark Pampanga outside Manila near Subic and Angeles City Philippines is Clark Wine Center.

Click here to contact Clark Wine Center in Clark Pampanga for inquiries and orders.

Clark Wine Center
Bldg 6460 Clark Observatory Building
Manuel A. Roxas Highway corner A Bonifacio Ave,
Angeles Clark Freeport Zone, Pampanga 2023
0922-870-5173 0917-826-8790 (ask for Ana Fe)

Wine@Yats-International.com

YATS Wine Cellars
Manila Sales Office
3003C East Tower, Phil Stock Exchange Center,
Exchange Rd Ortigas Metro Manila, Philippines 1605
(632) 637-5019 0917-520-4393 ask for Rea or Chay

Wedding couples looking for wedding reception venues and beach wedding venues can log on to this Philippines Wedding Venue web site for free information and assistance:

http://www.PhilippinesWeddingVenue.com

While in Clark, it might be a good idea to enjoy an evening of wine-and-dine in the fine dining Yats Restaurant and Wine Bar that features an award winning 2700-line wine list. Highly recommended fine dining restaurant in Manila for special occasion is Yats Restaurant & Wine Lounge located in the famous Mimosa Leisure Estate in Clark Pampanga. Situated near this popular restaurant in Clark is the Mimosa Golf Course as well as the Mimosa Clark Casino. This top rated restaurant near Angeles City Pampanga in Clark Philippines is frequently used for private parties and corporate functions such as board meetings and other gatherings. It is located in Mimosa Leisure Estate of Clark Freeport Zone. For more information, visit http://www.YatsRestaurant.com

YATS Leisure Philippines is a developer and operator of clubs, resorts and high-class restaurants and wine shops in Clark Angeles Philippines http://www.YatsLeisure.com

Looking for famous tourists spots, places to visit and see, relax and unwind in Clark, Pampanga, Philippines? You may want to check out these sites also:

http://www.LondonPubClark.com

Besides good restaurants to wine and dine near Manila, Subic or in Angeles City Pampanga, Clark Philippines, those requiring assistance for hotel and resort bookings in Clark, Pampanga, Philippines may log on to http://www.HotelClarkPhilippines.com for more information and reservations.

The lifestyle in Clark Pampanga is quite unique. For more information about shopping, sports, golf, leisure, hotel accommodation, where to see and visit, what to do, where to wine and dine and good places to hang out, relax, have a drink with friends, child-friendly establishments, log on to
http://www.ClarkPhilippines.com

Wine lovers looking for a special bottle or something that is of great value and special discounts might log on to this web site to shop for fine vintage wines
http://www.YatsWineCellars.com

Those visitors who plan to relax and unwind in Angeles City, Subic, Pampanga, Clark Philippines might make an effort to book a room at the famous beach and lake resort Clearwater Resort & Country Club. This famous hotel in Clark Pampanga is frequently visited by families with children looking for a good place in Clark to see, a good holiday destination for the family to relax and unwind in the beautiful outdoor facilities. For more information, log on to www.ClearwaterPhilippines.com


You can skip to the end and leave a response. Pinging is currently not allowed.
 

Leave a Reply