If you are in the industrial or commercial fishing industry, then you likely already know how important it is to keep your fish in the most favorable condition you can in order to attain the highest price and to ensure the distribution of safe product. It can feel like a losing battle, especially since fish begin to spoil as soon as they are deceased. It is important for you to take the necessary precautions to make certain that you’re looking after your best interests as a member of the industry, as someone who has a vested interest in your company, and as a person who is responsible for delivering healthy, quality fish to your consumers. Chilled seawater ice (also often referred to as CSW) can be an effective and beneficial tool for your boats to utilize in order to keep your fish in the best attainable condition.

How Chilled Seawater Can Help to Keep Fish Fresh

Chilled seawater can be a highly efficient, safe, and useful way to keep fish at their peak of freshness for as long as possible. Chilled seawater is a unique kind of ice water mixture since it is composed of sea water and cooled by the addition of ice. There are a number of different functions that ice naturally performs that can help you maintain freshness:

Reduction of Temperature

Chilled Seawater and ice are able to reduce the temperature of the fish to the optimal 0°C, which combats the growth of pathogenic microorganisms and reduces the rate of spoilage – which in turn can reduce or even eliminate many of the safety risks that comes with storing fish.

Chilled Seawater Maintains Moisture

Once a fish is out of the water and deceased, it immediately begins to dry out – which affects its appearance, quality, and weight. Melting water helps to prevent surface dehydration, and will help keep the quality and weight of the fish up to industry standards. CSW is essentially a slurry of seawater and ice, and this kind of mixture can be the quickest and most practical chilling method since it is able to reach more surface area uniformly and swiftly. Melting water increases the speed at which the fish is chilled, so it has less time to be affected by heat or exposure.

One noticeable drawback that water can have is to create a color leaching effect. It can also leach mass and nutrients if the fish is left in it for too long. This concern can be addressed by routinely draining the excess water from the CSW mixture – adding more as needed.

CSW Is Convenient

Chilled seawater is a portable cooling method – able to be transported quickly and easily from place to place since it to not particularly heavy or cumbersome. It is also composed of raw, natural materials that are widely available – making it easy to come by and fairly inexpensive to both produce and to purchase.

CSW Can Extend the Shelf Life of Your Fish

All of these attributes come together to help you with your primary purpose – to conserve your resources as much as possible while still ensuring that you’re delivering quality goods to your next port of call. Given these factors, CSW can be relatively cheap way to preserve fish and to make sure that their quality is retained for as long as is feasible.

Limitations of Chilled Seawater

While chilled seawater has many benefits in terms of application and usefulness, it does have a few drawbacks. In addition to the possibility of color, mass, and nutrient leaching that too much water exposure can enact, CSW that has too high of a salt content can affect the taste and quality of the fish by imbuing it with more salt than desired. The heat transferability of CSW is also affected by the salt content – causing the ice to separate from the salt after a while and to not convey its coolness as quickly.

However, many of these drawbacks can be addressed simply by prudent testing of the CSW’s salt content, as well as making sure that the fish aren’t left to soak to long in stagnant water. That concern can be assuaged by systematic draining, as well as water circulation technologies with which some containers can be outfitted.

While chilled seawater systems may not work for every company or every boat, the technologies that produce them and the natural attributes that they offer will likely make them a useful and practical addition to many within the commercial and industrial fishing industries. It is a universal truth that once a fish is caught it needs to be either eaten or quickly preserved for future consumption, and CSW can help many achieve the latter.

Grapefruit is a great healthy food item that is enjoyed by people all over the world. With flavors ranging from seriously sour to semi-sweet, this citrus fruit can offer both immense health benefits as well as a distinctive taste profile that many people swear by.

To ensure that grapefruit tastes the best it possibly can, proper knowledge of cooling and storage procedures is crucial. To this end, the following information is essential to keeping grapefruit tasting great long after it’s been harvested.

Get to Know the Grapefruit

In general, there are quite a few varieties of grapefruit available to shoppers. Ruby Red is perhaps the most popular variety thanks to its sweetness, which is a staple among those varieties sharing a similar red hue. Other types of grapefruit include pink, Star Ruby, Oro Blanco, White Marsh, and even flame, which offers a combination of tart and sweet flavors. Grapefruit is grown in numerous countries, with U.S. production concentrated within Florida and Texas.

In addition to the unique flavor, grapefruit is also an exceedingly healthy food source. Grapefruit is rich in fiber and antioxidants, as well as being a great source of vitamin C. Grapefruit is also known for its fat-burning properties thanks to its low glycemic index. Many dieters rely on grapefruit as a means of boosting metabolism, which is why this fruit is often consumed for breakfast.

Proper Storage of Grapefruit

When it comes to storing grapefruit, there are a number of considerations one must make to ensure the fruit is tasty and long-lasting. Harvesting at the right time is just one of many factors involved in producing a quality fruit, as well as making certain that cooling and storage is successful.

Grapefruit should be harvested at full maturity, as ripening ceases once the fruit is harvested. Determining ripeness involves observing the following:

• No evident decay or defects (staining, scars, pitting, damage from insects, etc.)
• Size/shape
• Thickness/smoothness of peel
• Intensity and uniformity of color
• Firmness

Proper storage of grapefruit entails maintaining the correct temperature, as well as ensuring that humidity remains at an acceptable level. When storing grapefruit, temperatures should remain between 54-57°F, while humidity should be between 90-95%.

Additionally, growers must look out for certain issues that often befall grapefruit harvest. For instance, oil spotting can occur due to physical stress on overly-hard fruits. Pathological disorders can also pose a threat. Diseases of note include blue and green mold, stem end rot, brown rot, and sour rot.

Implementing common sense control strategies can help reduce the likelihood of issues with harvests. Proper handling is important to prevent physical damage from occurring, while treatment with fungicides post-harvest can greatly inhibit mold growth.

Grapefruit Cooling Techniques

Grapefruit can also be cooled to maintain longevity. In this case, it’s important to utilize the proper methods to ensure your fruit retains its delicious flavor post-harvest. Being aware of the different types of cooling methods is also extremely helpful:

Room Cooling – As the name suggests, room cooling entails storing grapefruit in a room with a built-in refrigeration unit. This method affords a gradual adjustment to cooler temperatures, which is less disruptive to the fruit. For the best results, be sure to keep grapefruit in packs with a decent amount of airflow.

Cooling via Forced-Air – Forced-air cooling offers a slight tweak on the above method via the introduction of a fan into a refrigerated room. Grapefruit should be placed around the fan, which will then increase the cooling speed by forcing air into the fruit. This is a good method when the cooling process must happen at an accelerated rate, which is not possible with room cooling alone.

Hydrocooling – While fully chilling grapefruit via hydrocooling is not recommended, this method can help prepare grapefruit for the above storage methods. Hydrocooling requires submerging grapefruit in near freezing water to remove any residual heat from the field. Grapefruit can either be cooled via room cooling or forced-air, both of which offer long-term methods for keeping fruit cool.

Treating Grapefruit With Care Will Offer the Best Results

As with all fruits, maintaining flavor and freshness requires taking the right approach to post-harvest storage. Doing so will not only afford the best taste possible, it can also allow fruit to retain its maximum quality for even longer. This is especially true of grapefruit, which offers an unbelievable flavor when handled accordingly. SEMCO/SEMCOLD LLC provides cooling and storage systems that are ideal for use with grapefruit and other produce.

In a past article we discussed the Advantages of Using Ice to Cool Fish. We’ve also discussed How to Calculate the Amount of Ice Needed to Chill Fish. This naturally leads into the topic of what type of ice is the best to use for cooling fish. Each different common type of ice will of course have its own set of pros and cons. In today’s article let’s take a look at the advantages and disadvantages of using one of the most popular types of ice to cool fish: block ice.

Block Ice Must Usually be Crushed

Before we get any further into the meat of the subject about the pros and cons of using block ice for cooling fish, it is important to understand that the block ice must be crushed if it is to be at all effective. Left in block form the ice would only be able to cool the surface of the fish placed directly against it, which would not be sufficient to prevent spoilage. Thus what we are considering in this article are the pros and cons of purchasing and transporting block ice, crushing it, and using that to cool the fish rather than simply starting with ice in a smaller form.

The Advantages of Block Ice

Having read the previous paragraph about the necessity of crushing ice before attempting to use it to cool fish, many readers may be wondering why any fishing crew would bother with block ice at all. Why not just start with crushed ice and save the trouble? In fact there are several excellent advantages to using block ice which make it arguably the most popular type of ice used for fishing expeditions. Consider the following:

Space Efficiency – One of the main advantages of block ice is that it is the most space efficient form of ice, meaning that for a given storage area more block ice per pound can fit than any other type of ice. That alone is extremely beneficial to fishermen all of the world, especially those operating smaller vessels where space is at a premium.

Readily Available – Another simple reason why block ice is so popular is because it is very readily available. Many commercial ice selling businesses supply not only fishing crews but also restaurants, bars, and other commercial and industrial clients. The wide availability of block ice also helps ensure that it stays affordable.

Melts Slowly – Block ice also has the advantage of being the slowest melting type of ice. That is because less of its surface area is exposed to warm air. This allows it to last much longer than other types of ice and makes it a great choice for longer expeditions.

Contains Less Water – Per area of volume block ice also contains less water than other types of ice. Once again that is because less of its surface area is exposed to warmth and thus there is less meltage. Not only does this ensure that the block ice lasts longer, it also ensures that it has maximum fish cooling potential. Once again this also positively affects the economy of block ice since fishermen purchasing block ice – with less liquid water – are getting better cooling potential and thus better value for their money.

The Disadvantages of Block Ice

While block ice has many great advantages there are also some very significant disadvantages, especially in terms of crushing requirements and ease of use. These disadvantages must either be overcome by careful and thorough crushing or else the fishing crew may want to consider a different form of ice to protect their fish.

Labor Intensive to Crush – Block ice that is crushed manually by a person is fairly labor intensive. Often the ice is crushed with an ice pick or a hammer and thus requires a significant amount of time and effort. There is also the risk of accidents or injuries. The entire process will require at least a little more planning and preparation than would be necessary for most types of ices since the block ice will essentially be useless for fish cooling until it has been broken.

May Require Extra Crushing Equipment – Many fishing crews eliminate the labor intensive aspect of block ice crushing by using mechanical crushing and grinding equipment. This also has the positive advantage of ensuring that the ice is thoroughly crushed. However, this method will obviously require the use of extra equipment which will take up space on board and cost money to purchase and maintain.

Large Chunks May Damage Fish – If the ice is not properly crushed there is also the risk that the large, jagged chunks may damage the fish. This can exacerbate the risk of spoilage, adversely affect meat quality, and make the fish less appealing to potential buyers.

Insufficient Crushing May Result in Insufficient Cooling – In addition to the physical risk of damage from the large chunks of ice, if the block ice is not thoroughly crushed it may not be able to provide sufficient cooling. Larger pieces will not as effectively surround the fish and will not readily enter cracks, crevices, and cavities. Thus insufficient crushing risks spoilage.

When considering what type of ice to use for your fishing voyage it is important to carefully weigh the pros and cons and determine the best type for your particular situation. SEMCO/SEMCOLD LLC can help. We provide outstanding cooling, freezing, and ice solutions that are ideal for use for industrial or commercial fishing. Let us help you protect the value and quality of your fish.

Due to their name alone, many people outside of the fishing industry may assume that small fish are just that: “small fish” that almost aren’t even worth reeling in. After all in common daily speech people often refer to good deals as “big fish,” while the “small fish” aren’t seen as lucrative. However, the reality is that within the fishing industry small fish such as sardines and fish of similar size are in fact quite important and profitable.

The Uses and Role of Small Fish

The term sardine is very commonly applied to small commercial fish. However, this term is inexact and is just loosely used to refer to fish in the clupeidae family. It may refer to a variety of species of small fish. The term “pilchard” is also commonly used, especially in the United Kingdom and Europe. Regardless of the name given to them, so-called small fish serve a number of important purposes including:

• Canning
• Pickling
• Grilling
• Smoking
• Drying
• Salting
• Bait Fish
• Fish Meal
• Fish Oil

They are considered very nutritious and when they are properly prepared also quite delicious. Fish meal may be used for pet or animal food. Meanwhile, the oil produced from these little fish may also be used for a variety of purposes unrelated to consumption. Fish oil is commonly used in the manufacturing of varnish, paint, and linoleum.

Special Considerations for Cooling Small Fish

It is important to understand how small fish vary from their medium or large counterparts. For one thing due to their increased surface area and smaller weight and size they are more prone to spoiling. That is because their meat is closer to the surface with fewer layers of insulation protecting it from warmer temperatures. This makes proper small fish cooling and storing extremely important for preventing the loss associated with spoilage.

On the flip side, however, is the fact that because they are so small and have less mass, small fish cool more rapidly. They also cool more uniformly. Larger fish may experience cooling gradients with the parts of the fish exposed to the ice being cooler than parts further away from the ice. By contrast a well-packed, small fish is likely to be cooled through and through.

Planning Ahead for Best Results

As with all types of fishing trips and commercial endeavors it is wise to plan ahead for best results. A well-insulated cooler is more efficient at keeping cool air in and warm air out, potentially allowing the voyage to be successfully undertaken with less overall ice. This will also increase the amount of storage area that is available for the fish rather than the ice.

However, it is crucial to bring enough ice to keep the fish safely chilled for the duration of the trip. To do this it is necessary to consider factors such as the ambient temperature of the water – and thus also the fish – where the fish are being caught. It is also important to consider how long the vessel will be out to sea and how quickly it can make its way back to shore.

Cooling with Ice and Chilled Seawater

Most industrial fishing operations use ice, chilled seawater, or a combination of the two. Chilled seawater is effective because it is abundant, cost effective, and will thoroughly permeate the fish for better cooling. Ice is highly effective for a variety of reasons including its versatility, low-cost nature, moisture retention, convenience, safety, and more. For ice to be most effective, however, it should be able to fully surround the fish and should thus be broken into small pieces or flakes.

SEMCO/SEMCOLD LLC understands the vital role small fish play in the lives of the fishermen who catch them. We are committed to providing industry-leading cooling and storage systems that are well suited to the particular needs of each of our clients. We can customize the system to be most effective for use with small fish and to meet the capacity demands and other specifications of the particular client. Please contact for additional information.