Monday, January 31, 2011

The Principles of Canning for Fishery Products: Lethality of Heat During Heating and Cooling

Clostridium botulinum
Although by convention the sterilising effect of a process is expressed in standard units of minutes at 121.1 ºC (the symbol used is Fo), the product inside a can does not instantaneously reach processing temperature and in some cases of conduction heating, the temperature at the thermal centre of the can never reaches that of the heating medium (which need not be at 121.1 ºC).

This paradox is resolved by making use of a relationship which shows that the rate of change in the thermal destruction of bacteria (i.e. the rate of change in their D values) is logarithmic around temperatures commonly used in heat sterilisation. This means that the lethal rate of destruction at any temperature can be related to that at a reference temperature. This relationship is graphically represented .in Figure 2  which shows a thermal death time curve passing through 1 min at 121.1 ºC. This "phantom" curve shows that relative to the lethal rate of unity at 121.1°C the lethal rates at 91.1, 101.1, 111.1, 131.1, 141.1 and 151.1 ºC are 0.001, 0.01, 0.1, 10, 100 and 1 000, respectively.

The sterilising effect of a thermal process (the process Fo value) can therefore be computed by integrating the combined lethal effect of exposure at all time/temperature combinations throughout the process. This means that a process that delivers an Fo value of 2.8 min (the so called 12D process for Clostridium botulinum) is equivalent in . sterilising effect to heating the contents of the can to 121.1 ºC instantly, holding it at that temperature for 2.8 min, and then cooling it instantly. Similarly, a process for solid style canned tuna packed in 84 x 46.5 mm cans may have a target Fo value of 10 min, which can be achieved by processing for 74 min at 116 ºC or 50 min at 121.1 ºC. With each process, however, the sterilising effect is the same as, and equivalent to, holding the can of tuna at 121.1 ºC for 10 min under conditions of instantaneous heating and cooling.

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Saturday, January 29, 2011

pink & blue

just because a momma-to-be decides to keep her baby's sex under wraps, doesn't mean you have to settle for the drab color palette of pastel yellows & greens when it comes to throwing her a baby shower.

here we celebrate the surprise by incorporating pink AND blue...

The Principles of Canning for Fishery Products: Bacterial Spores Heat Resistance

It is desirable that the test organism in comparative thermal death time determinations be one which grows readily on the ordinary culture medium, with the production of an abundant yield of spores in a minimum time.

It should, furthermore, be an organism which has a characteristic type of growth, or should possess some readily determinable which will serve to differentiate it from contaminants likely to be encountered.

The heat resistance of bacterial spores is specified by the time required to kill 90 per cent of the population at constant temperature; this enables a comparison of heat resistance of spores of many different bacteria. For most spores of importance in canned food spoilage their heat resistance is measured at 121.1 ºC (250 ºF), a common retorting temperature, and is expressed as the D value. A typical plot of the number of survivors against heating time is shown in Figure 1. It can be seen that the time to reduce the population from 1 000 000 to 100 000 is the same as that required to reduce it from 100 to 10. That is, the D value is constant for specific bacterial spores when they are subjected to heat at constant temperature. In Table 1 are summarised the D values of bacterial spores important in canned foods.

Destruction of all spores of Clostridium botulinum is the minimum safety requirement , when thermally processing low-acid canned foods. Canners aim to reduce the probability of one spore surviving the thermal process to such a low level that, for all practical purposes, the contents of the container pose no health risk due to survival of Clostridium botulinum (spores). Experience has shown that a process equivalent in sterilising effect to twelve decimal reductions of the population of Clostridium botulinum is sufficient to protect consumer safety. Such a process is referred to as a "12 D" process and it is equivalent to holding the contents of the container at 121.1 ºC for 2.8 min (12 D= 12 x 0.23 = 2.8 min). A process as severe as this will satisfy requirements (under conditions of good manufacturing practice); however, it will be insufficient to reduce to a commercially acceptable level, the probability of survival for the extremely heat resistant spores (with D values of 2.0 to 5.0 min) of non-pathogenic bacteria. This is why canned fish manufacturers select a thermal process which goes beyond the safety requirements of destruction of Clostridium botulinum.

Fig.1. Survivor curve for bacterial destruction at constant temperature
Although the probability of survival for spores of non-pathogenic heat resistant bacteria may be several thousand times that for Clostridium botulinum spores, their presence is of no great concern to canners for two reasons:
  1. Should they lead to spoilage, there is no associated health risk
  2. They only grow at temperatures above 40 ºC (i.e., they are thermophilic) and their optimum growth temperature is around 55 ºC, which is above that in most warehouses ) and retail outlets

Table 1. Decimal reduction times (D-values) of bacteria
important in low acid canned foods

OrganismD value (min. at 121.1 ºC)
B. stearothermophilus 4.0 - 5.0
C. thermosaccharlyticum 3.0 - 4.0
D. nigrificans * 2.0 - 3.0
C. botulinum (A & B) 0.1 - 0.23
C. sporogenes (P.A. 3679) 0.1 - 1.5
B. coagulans 0.01 - 0.07
* Formerly C. nigrificans

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SMA TODAY: Set Up 8:42p.m. 01/29/2011 To Help Isabella, A Fiction Page

It's all about being a kid
Never was one be4
Now at 54
I am
and
I
luvit!
The
End,
but
don't
forget
to
donate
today
to
:)

Friday, January 28, 2011

The Principles of Canning for Fishery Products: Selection of Thermal Processing Conditions

The purpose of sterilizing cans of fishery products is to rid the container and the contents of all pathogenic micro-organisms and to prevent. spoilage by non-pathogenic contaminants under normal storage conditions. Selection of processing conditions necessary to fulfill these criteria is based upon experimental studies in which the rate of heat penetration to the slowest heating point (SHP) of the container is measured during simulated retorting cycles.

The data from these trials (or from suitable reference sources) are .used by fish canning technologists to determine the processing temperatures and times necessary to render the canned product commercially sterile. Manufacturers of canned fish (and all low-acid canned foods) can specify their thermal processes in terms of target Fo values, where the Fo value is a measure of thermal processing severity.

Having selected an appropriate Fo value (which may be far in excess of that required to reduce to an acceptably low level, the probability of survival of Clostridium botulinum spores as may be the case when the process is designed to bring about bone softening) the canner then adopts a time and a temperature for the thermal process which will ensure its delivery at the SHP of the container.

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Thursday, January 27, 2011

the perfect pair...


why, hell-oooo clogs! i've been keeping my eye out for the perfect clog to welcome into my shoe collection... and i think these fit the bill.

unique
, check.
eye-catching
, catch.
classic enough to outlast the trend
, i think so.

the over-sized fringe and dainty heel-tassels have my feet dancing with desire.


**durbuy: leather fringe platform

The Principles of Canning for Fishery Products Preservation

What is Canning?
Canned fish
Canning is a method of preserving food in which the food is processed and sealed in an airtight container, providing a typical shelf life ranging from 1 year to 5 years and under specific circumstances a freeze dried canned product can last as long as 30 years and can still be safely consumed. The process was first developed as a French military discovery by Nicolas Appert in 1810. The packaging prevents microorganisms from entering and proliferating inside.

The Principles of Canning
The purpose of thermal processing during manufacture of canned fishery products is the destruction of bacteria by application of moist heat. Only having satisfied the safety requirements of protecting consumer health, and the commercial requirements of preventing non-pathogenic spoilage, does the canner set about choosing a thermal process schedule that will optimise the sensory quality of the finished product.

Of the bacteria contaminating fishery products, some (the pathogenic bacteria) cause food poisoning while others only spoil the food. Of particular concern to fish canners is the possibility of there being contamination by Clostridium botulinum which, if present, can form heat resistant spores capable of withstanding a mild thermal process. As this micro organism can grow at the pH of fish flesh it is important that the processor ensure that all his cans have received a process that is sufficiently severe to kill spores and vegetative forms of the bacterium. Survival of Clostridium botulinum, after the thermal process, is an extreme health risk as low-acid canned foods (pH > 4.5) support growth of the organism, and under certain conditions will also favour formation of the neurotoxin responsible for outbreaks of botulism.

Sterilization is a heat treatment given foods capable of supporting the growth of heat resistant spore forming bacteria. Sterilization processes destroy all pathogenic contaminants and all other micro organisms capable of growing under normal storage conditions; survivors of the process will be extremely heat resistant spores which pose no health risk and only grow at elevated temperatures (= 40 ºC). Rather than make canned foods absolutely sterile, canners aim for "commercial sterility" which means that the contents are safe (as all pathogenic microorganisms have been destroyed) and shelf-stable at normal storage temperatures. Were the thermal process designed to make all cans absolutely sterile, there would be unnecessary loss of sensory and nutritional quality without there being any increase in the safety of the product.

The higher the temperature of sterilization the greater is the rate of thermal destruction, which is why canners process their canned fish in steam under pressure rather than in water at atmospheric pressure. The rate of thermal destruction is also affected by the nature of the product (liquids heat faster than solids) and the container size (large cans of fish packed in brine take longer to reach lethal temperatures, than do small cans containing the same product). The total sterilization effect of a thermal process can be expressed as the sum of all the sterilization effects achieved by all the time-temperature combinations throughout the entire thermal process. By convention, sterilizing effect is expressed in standard units of minutes at 121.1 ºC, so that. an entire processing cycle is expressed as being equivalent, to holding the product at 121.l ºC for a given time. The unit of sterilization is the Fo unit, where an Fo value of one minute is equivalent to holding the product at 121.1 ºC for one minute and then cooling it instantly.

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Wow!

I cannot believe how long it has been since my last post!!! Alot has happened in my life since then. Some good and some very very sad! During the last several months, due to TONS of stress, I went through a lot of nutritional cheating! I got back on dairy, my sugar intake went sky high, and I was eating a lot of junk food!!! You can't imagine the affects this had on my body. I began gaining weight. I was breaking out more often and my energy level plummetted.



So, about 2 weeks ago, I made the decision to get back on track with my diet. I was starting a new business and I needed a huge boost in my energy level! I stopped the dairy, sugar, and junk food and after only 2 weeks, I've lost several pounds and my energy level is getting higher and higher everyday =) I don't ever want to get that lazy with my health again!

Anyway, I'm very excited to be back on track with my diet and I'm hoping to get back to blogging about all kinds of health stuff on a regular basis again! I look forward to sharing more with you very soon =)

Have a blessed and healthy day!

Wednesday, January 26, 2011

Checklist: the Important Tool for Entrepreneurs in New Poduct Development

This session is the final step of all the seven steps you must pass to establish your business in food processing. On the following pages (Table 1) is a checklist that may be useful for entrepreneurs in new product development. Understand that new product development is not an exact science. There are always different ways of doing things but this checklist covers some of what I consider the most important elements in the development and marketing of a new food product.

Use of these elements should increase your odds of success. As previously mentioned, new product development is not an exact science but also a discipline that requires some personality traits such as passion, persistence etc. Therefore, we cannot guarantee success by the use of our suggestions. You still have to provide the personality and perseverance.

Table 1. CHECKLIST FOR NEW PRODUCT DEVELOPMENT
STEP# ITEM COMMENT
1 Have an idea 1) Just do it.
2) Think of something to do. It doesn’t have to be great. You will probably change your mind many times before you get to one you feel really good about.
3) Remember that entrepreneurs find a need, want or desire and fill it.
4) Flavor concepts in themselves are not very good for the long haul.
2 Conduct a “Reality Check” 1) Talk to some people in your area that are doing something similar.
2) Conduct internet searches on the subject. Find out what has been going on in the area.
3) Determine if you can apply some new technology to the processing.” courses
3 Attend some “Small Business Development” courses in your region. 1) I highly recommend that you take the following courses 1) Starting a Business in your region, 2) How to Write a Business Plan and 3) Guerrilla Marketing. There are other ones that may also be of interest to you.
2) Review the booklet entitled “Business Blueprints; Is your Business Idea Feasible”.See if you have the personality and the abilities to start a small business.
3) Review the booklet entitled “New Venture Guide”.The information contained in this booklet will help you to determine state regulations, understand marketing and how to write a business plan.
4) I'm sure that there are many other resources available from the Small Business Development Center in your region. Use these resources as needed.
4 Start developing a business plan 1) Write down your idea and think about who will buy your product and why. What need does it fill?.
2) Start writing a business plan with emphasis on describing your product (the product, sales channel, trend, who is the end user, etc), Who is the competition?, What does the market look like?, What is your cost to produce?, etc.
3) The process of developing a business plan will increase your knowledge of the industry and your passion for the business will build.
4) Work on it several times per week. Think big.
5) Talk about your product to people in the industry. Go where food people hang out. Successful people have a habit of helping others.
6) Use available assistance
7) Learn the business
8) Spend 3-6 months in this phase of writing a business plan. Call it “minimal risk taking”.
9) Define your marketing strategy. This is very important. It is how you will “go to market”. What promotional tools will you use? Coupons, advertising mode (TV, newspaper,). How will people know about your product? Use guerrilla marketing. What is your pricing strategy? Develop sales information and “point of sale” material. Make a sales target list. Conduct market research. etc
10) Learn more about federal, state and local regulations, permits needed, type of business, etc
5 Decide on your packaging option You need to decide how your product will be packaged. This may be dependent upon whether a copacker can package it the way you want.
6 Decide on a manufacturing mode ------
6A Copacker Mode CoPacker Mode;
1) Get confidentiality/ non- disclosure agreement signed
2) Give formula to copacker and discuss product
3) Get label and package designed. Get UPC code
4) Write process specification ( pack size, quality checks etc)
5) Get test batch made.
6B Self Manufacturing Self Manufacturing Mode; NOT RECOMMENDED
1) Acquire facility
2) Get inspection for facility for either "FDA" or "USDA".
3) Get equipment
4) Hire skilled people (sales, production, marketing, QA/QC, maintenance, finance etc)
5) Write process specifications, labeling, licenses, procurement of ingredients, packaging, etc, etc, etc.
7 Design package label 1) Decide how you want your label to look for maximum consumer appeal.
2) Make sure to include the 5 mandatory parts required by federal regulations and any other that may be needed.
3) Get UPC code if needed or desired.
4) Do a pricing on your product
8 Get Sales 1) Try to sell your product. Go everywhere. Doors will be slammed in your face. Live with it.
2) Continue to refine marketing strategy the rest of your life.
3) Sell to everyone, everywhere. Never stop.
4) Everyday, try to call on at least one possible customer.
9 Get more Sales 1) Refine marketing strategy
2) Continue selling
3) Remember – You are getting what you wanted. And you thought making money would allow you time for vacation? Ask Bill Gates about vacation. He took only 10 days over a 10 year period of time. "SUCCESS IS ALL ABOUT PASSION AND GOAL ACCOMPLISHMENT".

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relax, take off your shoes... stay a while

well hello there! welcome to the blog home of pom-pom & peonies.
this will be ever-evolving inspiration board for my budding little event & styling business.

we're just starting to sprout, but we sure do hope you'll stick around and watch us grow.

inspiration icon... jonathan adler

inspiration is everywhere... especially these days with the help of our little friend the world wide web.

and with inspiration comes
inspiration icons... those people who stand out in the crowd. who grab your attention and suck you into their world. who set the bar in your book. those who light a fire under your butt and motivate you to make your own, individual, mark on this hugely awesome world we live in.

i have a growing list of these icons and the first
i'd like to share with you is jonathan adler... ceramics master and the namesake behind his ever-growing, highly coveted, home decor & interior design business.

he's the hip-daddy of "happy chic" and an inspiration icon to me because... he embraces and confidently exudes his individuality and unique personality as the foundation of his business. from his classic pottery pieces to his newly launched table linens, his pieces are recognizable, a bit quirky & always fun... most importantly, he makes you want to be a part of his world.
oh...and he believes in rustic modernism...my fave.

in his own words...

Jonathan Adler
...is a design company dedicated to bringing style, craft, joy, and a general feeling of grooviness to your home.

Assistance: It will Accelerate Your Steps in Starting Food Processing Business

You need assistance
There is one thing that you should not forget to complete your steps in starting your food processing business. You need "Assistances". Some assistances you have to contact as soon as possible are listed below:

  1. As an entrepreneur, you have many places to go for assistance. The federal and state governments want you to be successful so you can pay more taxes so they have institutions that provide assistance at no or minimum costs. 
  2. For food product technical assistance, contact the Institute of Food Science and Engineering nearby your business located.
  3. For business plan development, contact the Small Business Development Center in your country. 
  4. Remember the old adage “Success breeds success” and successful people want to help others become successful. There are many people out there in the world who have been successful and would like to help others. They will help you in ways you would never imagine. Successful people are always helping others. Seek out these people, take them to lunch and most of them will tell you everything they know. They can provide you with a lot of important tips. The information age is upon us. 
  5. The internet makes information readily available delivered to our home. There is a tremendous amount of information that is available for your use if you know where to find it.

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    Monday, January 24, 2011

    Going to Market: One Step Ahead to Start a Successful Food Processing Business

    As I've presented before there are four first components in starting a food processing business you have to do and preparing well: the product, the business plan, manufacturing/operations/regulations, and label design and packaging. In this session I will present the fifth one: going to market.

    Once you have all the above mentioned items completed, you are ready to “go to market”. In marketing management, the term “go to market” refers to the channels a company will use to connect with its customers/business and the organizational processes it develops (such as high tech product development) to guide customer interactions from initial contact through fulfillment.

    A firm's “go to market” is the mechanism by which they propose to deliver their unique value proposition to their target market. That value proposition is based on the choices the business has made to focus on and invest in markets and solutions that they believe will respond positively to the increased attention.

    Marketing strategy involves "Who" the firm will go after and "What" it will offer them. “go to market”  is a component of the overall marketing strategy and is concerned with "How" the firm will make it happen. “Go to market” is a strategy mainly used by marketers of goods that are not for the mass market. The main focus of this marketing exercise is to target the direct consumer or the one in authority who makes the buying decision.

    For this step all you have to do is to get some samples made to take out and show buyers who represent stores or restaurants. Set up appointments with product buyers. Maybe hire a professional sales person to make the presentation. After you have the order, implement your business plan. You can never have enough customers. Continue to refine your business plan and make more sales calls. You can never have enough business.

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    Friday, January 21, 2011

    True Amino Acid Digestibility of Fermented Shrimp Waste in Broiler Chicks

    Abstract : Thirty 55 days old of MB-202 male broiler chicken were used in a completely randomized design to evaluate the digestibility of Aspergillus sp. fermented shrimp waste (FSW) by force feeding technique. There were 4 dietary treatments, each having 6 replicates. 

    Three diets each of A. niger FSW (FSWn) , A. oryzae FSW (FSWo) and A. sojae FSW (FSWs) were formulated and one raw SW diets as control. The birds were fasted for 24 h and force feeding as quickly as possible and total excreta sampling for amino acids digestibility evaluation. The amino acid digestibility of FSW groups were higher as compared to the raw SW. Among FSW groups treatment, the digestibilities FSWn were higher for all amino acid. Supplementation of the diets with lysine have more attention in order to utilization of FSW as broiler feedstuff.

    Key words : Digestibility, amino acid, fermentation, shrimp waste
    full text >>

    Thursday, January 20, 2011

    Label Design and Packaging: an important product components to consider when starting food processing business

    Food product labeling and packaging
    materials: many options
    Food products must look good and in a package that consumers recognize. The label design and color can have a tremendous impact on how well a food product sells. I suggest that entrepreneurs find and utilize a graphic design company that understands visual literacy and how customers tend to shop with their eyes.

    In today’s world with computer graphics, it is so easy to do it yourself but you may not understand the customer as well as you think. Remember to include the nutritional label, UPC code and a product code for tracking your product. Maybe you should consider having the name of the product or logo trademarked

    Aside from the government requirements and the buyer’s requirements, there are things you must be cognizant of to effectively “romanticize your product” and to entice potential customers to pick up and try your product. When it comes to the actual package of the product, remember to package it in a form that the customer can identify with. For example, customers are used to buying bread in plastic bags so don’t package it in a can.

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    Wednesday, January 19, 2011

    Canning as a Method Preserving Fruits and Vegetables

    Canned fruits
    The canning of fruits and vegetables is a growing, competitive industry, especially the international export portion. The industry is made up of establishments primarily engaged in canning fruits, vegetables, fruit and vegetable juices; processing ketchup and other tomato sauces; and producing natural and imitation preserves, jams, and jellies.

    Preservation Process

    The primary objective of food processing is the preservation of perishable foods in a stable form that can be stored and shipped to distant markets during all months of the year. Processing also can change foods into new or more usable forms and make foods more convenient to prepare.

    The goal of the canning process is to destroy any microorganisms in the food and prevent recontamination by microorganisms. Heat is the most common agent used to destroy microorganisms.


    Canned vegetables
    Removal of oxygen can be used in conjunction with other methods to prevent the growth of oxygenrequiring microorganisms.In the conventional canning of fruits and vegetables, there are basic process steps that are similar for both types of products. However, there is a great diversity among all plants and even those plants processing the same commodity. The differences include the inclusion of certain operations for some fruits or vegetables, the sequence of the process steps used in the operations, and the cooking or blanching steps. Production of fruit or vegetable juices occurs by a different sequence of operations and there is a wide diversity among these plants. Typical canned products include beans (cut and whole), beets, carrots, corn, peas, spinach, tomatoes, apples, peaches, pineapple, pears, apricots, and cranberries. Typical juices are orange, pineapple, grapefruit, tomato, and cranberry. Generic process flow diagrams for the canning of fruits, vegetables, and fruit juices are shown in Figures 1, 2, and 3.

    The steps outlined in these figures are intended to the basic processes in production. A typical commercial canning operation may employ the following general processes:
    • washing, 
    • sorting/grading, 
    • preparation, 
    • container filling, 
    • exhausting, 
    • container sealing, 
    • heat sterilization, 
    • cooling, labeling/casing, and 
    • torage for shipment. 

    In these diagrams, no attempt has been made to be product specific and include all process steps that would be used for all products. 

    Canned juice
    Figures 1, 2, and 3 show optional operations, as dotted line steps, that are often used but are not used for all products. One of the major differences in the sequence of operations between fruit and vegetable canning is the blanching operation. Most of the fruits are not blanched prior to can filling whereas many of the vegetables undergo this step. Canned vegetables generally require more severe processing than do fruits because the vegetables have much lower acidity and contain more heat-resistant soil organisms. Many vegetables also require more cooking than fruits to develop their most desirable flavor and texture. The methods used in the cooking step vary widely among facilities. With many fruits, preliminary treatment steps (e. g., peeling, coring, halving, pitting) occur prior to any heating or cooking step but with vegetables, these treatment steps often occur after the vegetable has been blanched. For both fruits and vegetables, peeling is done either by a mechanical peeler, steam peeling, or lye peeling. The choice depends upon the type of fruit or vegetable or the choice of the company.

    Some citrus fruit processors produce dry citrus peel, citrus molasses and D-limonene from the peels and pulp residue collected from the canning and juice operations. Other juice processing facilities use concentrates and raw commodity processing does not occur at the facility. The peels and residue are collected and ground in a hammermill, lime is added to neutralize the acids, and the product pressed to remove excess moisture. The liquid from the press is screened to remove large particles, which are recycled back to the press, and the liquid is concentrated to molasses in an evaporator. The pressed peel is sent to a direct-fired hot-air drier. After passing through a condenser to remove the D-limonene, the exhaust gases from the drier are used as the heat source for the molasses evaporator.

    Equipment for conventional canning has been converting from batch to continuous units. In continuous retorts, the cans are fed through an air lock, then rotated through the pressurized heating chamber, and subsequently cooled through a second section of the retort in a separate cold-water cooler. Commercial methods for sterilization of canned foods with a pH of 4.5 or lower include use of static retorts, which are similar to large pressure cookers. A newer unit is the agitating retort, which mechanically moves the can and the food, providing quicker heat penetration. In the aseptic packaging process, the problem with slow heat penetration in the in-container process are avoided by sterilizing and cooling the food separate from the container. Presterilized containers are then filled with the sterilized and cooled product and are sealed in a sterile atmosphere.

    Figure 1. Generic process diagram for fruit canning

    To provide a closer insight into the actual processes that occur during a canning operation, a description of the canning of whole tomatoes is presented in the following paragraphs. This description provides more detail for each of the operations than is presented in the generic process flow diagrams in Figures 1, 2, and 3.

    Figure 2. Generic process diagram for vegetable canning

    Preparation

    The principal preparation steps are washing and sorting. Mechanically harvested tomatoes are usually thoroughly washed by high-pressure sprays or by strong-flowing streams of water while being passed along a moving belt or on agitating or revolving screens. The raw produce may need to be sorted for size and maturity. Sorting for size is accomplished by passing the raw tomatoes through a series of moving screens with different mesh sizes or over differently spaced rollers. Separation into groups according to degree of ripeness or perfection of shape is done by hand; trimming is also done by hand.

    Figure 3. Generic process diagram for juice canning

    Peeling And Coring

    Formerly, tomatoes were initially scalded followed by hand peeling, but steam peeling and lye peeling have also become widely used. With steam peeling, the tomatoes are treated with steam to loosen the skin, which is then removed by mechanical means. In lye peeling, the fruit is immersed in a hot lye bath or sprayed with a boiling solution of 10 to 20 percent lye. The excess lye is then drained and any lye that adheres to the tomatoes is removed with the peel by thorough washing. Coring is done by a water-powered device with a small turbine wheel. A special blade mounted on the turbine wheel spins and removes the tomato cores.

    Filling

    After peeling and coring, the tomatoes are conveyed by automatic runways, through washers, to the point of filling. Before being filled, the can or glass containers are cleaned by hot water, steam, or air blast. Most filling is done by machine. The containers are filled with the solid product and then usually topped with a light puree of tomato juice. Acidification of canned whole tomatoes with 0.1 to 0.2 percent citric acid has been suggested as a means of increasing acidity to a safer and more desirable level. Because of the increased sourness of the acidified product, the addition of 2 to 3 percent sucrose is used to balance the taste. The addition of salt is important for palatability.

    Exhausting

    The objective of exhausting containers is to remove air so that the pressure inside the container following heat treatment and cooling will be less than atmospheric. The reduced internal pressure (vacuum) helps to keep the can ends drawn in, reduces strain on the containers during processing, and minimizes the level of oxygen remaining in the headspace. It also helps to extend the shelf life of food products and prevents bulging of the container at high altitudes.

    Vacuum in the can may be obtained by the use of heat or by mechanical means. The tomatoes may be preheated before filling and sealed hot. For products that cannot be preheated before filling, it may be necessary to pass the filled containers through a steam chamber or tunnel prior to the sealing machine to expel gases from the food and raise the temperature. Vacuum also may be produced mechanically by sealing containers in a chamber under a high vacuum.

    Sealing

    In sealing lids on metal cans, a double seam is created by interlocking the curl of the lid and flange of the can. Many closing machines are equipped to create vacuum in the headspace either mechanically or by steam-flow before lids are sealed.

    Heat Sterilization

    During processing, microorganisms that can cause spoilage are destroyed by heat. The temperature and processing time vary with the nature of the product and the size of the container. Acidic products, such as tomatoes, are readily preserved at 100°C (212°F). The containers holding these products are processed in atmospheric steam or hot-water cookers. The rotary continuous cookers, which operate at 100°C (212°F), have largely replaced retorts and open-still cookers for processing canned tomatoes. Some plants use hydrostatic cookers and others use continuous-pressure cookers.

    Cooling

    After heat sterilization, containers are quickly cooled to prevent overcooking. Containers may be quick cooled by adding water to the cooker under air pressure or by conveying the containers from the cooker to a rotary cooler equipped with a cold-water spray.

    Labeling And Casing

    After the heat sterilization, cooling, and drying operations, the containers are ready for labeling. Labeling machines apply glue and labels in one high-speed operation. The labeled cans or jars are the packed into shipping cartons.

    References:
    1. U. S. Department of Commerce, International Trade Administration, U. S. Industrial Outlook 1992-Food and Beverages.
    2. 1987 Census of Manufacturers, MC87-1-20-C, Industries Series, Preserved Fruits and Vegetables.
    3. B. S. Luh and J. G. Woodroof, ed., Commercial Vegetable Processing, 2nd edition, Van Nostrand Reinhold, New York, 1988.
    4. J. L. Jones, et al., Overview Of Environmental Control Measures And Problems In The Food Processing Industries. Industrial Environmental Research Laboratory, Cincinnati, OH, Kenneth Dostal, Food and Wood Products Branch. Grant No. R804642-01, January 1979.
    5. N. W. Deroiser, The Technology Of Food Preservation, 3rd edition, The Avi Publishing Company, Inc., Westport, CT, 1970. 
    6. J. G. Woodroof and B. S. Luh, ed., Commercial Fruit Processing, The Avi Publishing Company, Westport, CT, 1986.
    7. H. J. Van Langenhove, et al., Identification Of Volatiles Emitted During The Blanching Process Of Brussels Sprouts And Cauliflower, Journal of the Science of Food and Agriculture, 55:483-487, 1991.
    8. R. G. Buttery, et al., Identification Of Additional Tomato Paste Volatiles, Journal of Agricultural and Food Chemistry, 38(3):792-795, 1990.
    9. H. J. Rafson, Odor Emission Control For The Food Industry, Food Technology, June 1977.

    Sunday, January 16, 2011

    Manufacturing, Operations and Regulations as Important Components When Starting Food Processing Business

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    Co-packing is a comprehensive term
    that covers multiple activities and
    each co-packer has its own areas
    of expertise
    After you have a food product concept and have written a fairly extensive business plan, it is time to consider the manufacturing of the food product. It is highly recommended that an entrepreneur first use the co-packing option. Co-packing, also known as contract manufacturing, is when you go to an existing food processor and have them make the food product for you. 

    Many food manufacturing facilities have excess capacity and these plants can offset some of their operating expenses by selling you that excess capacity. I recommend this option for several reasons:
    1. It minimizes your financial risk
      • A small processing plant can cost over $100,000 and building a processing facility to support an untested food concept is a financial risk you don’t need. 
      • Your money and time is better spent selling and marketing the product
    2. Government regulations are very long and hard to understand for the new person to the business
      • There are many government regulations you must know about before getting into the business
      • There are regulations governing the facilities, processing, labeling (to include 5 parts of all labels, nutritional labeling and allergen labeling), food safety plans and naming of the product (standards of identity).
      • For an entrepreneur, this is just too much to handle when the success of new products lie in the sales and marketing of your product. There is just not much money to be made in manufacturing.

      by: Harrys

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      Saturday, January 15, 2011

      A Guide for Canning Vegetables

      A Canned vegetables
      As all we known that all agricultural products is perishable. This perishable characteristic is all because of a high water content level consisting in them. This condition happened to vegetables as one of agricultural products that need time to reach to the consumers. 

      Therefore, it's need a technique to preserve vegetables to not defect when it's ready to be consump by the consumers. One of the preservation techniques that reliable for vegetables is canning.

      All vegetables, except tomatoes, require processing in a pressure canner with a weighted control or dial gauge. Because tomatoes are more acidic, they can be safely processed in a boiling water bath.

      Food Safety Concerns

      A deadly form of food poisoning, botulism, can occur when low-acid foods are improperly processed. The higher temperatures of the pressure canner are necessary to ensure that any Clostridium botulinum spores are killed. If the organism is present in canned low-acid vegetables, botulism toxin can be produced. Even sealed containers without any visible sign of spoilage can contain botulism toxin.
      • To avoid the risk of botulism, make sure your pressure canner is in good working order; check the gauge yearly for accuracy; follow all canning recommendations exactly.
      • Since the rate of heat penetration and acidity is affected by the combination of foods used, do not can vegetable mixtures such as vegetable soup or chili sauce unless you have a laboratory tested recipe.
      • Never thicken vegetables prior to canning. For mixed vegetables look up the processing time for each vegetable in the mixture. Use the processing time for the vegetable that requires the longest processing time.
      • Always check home canned vegetables carefully for signs of spoilage before and after opening. When opening, watch for spurting liquid, an off odor, or mold.

      If there is any doubt in your mind whether home canned food food is spoiled, don’t use it. Burn any spoiled food or dispose of it so that it will not be eaten by humans or animals. Also, be sure to boil low-acid vegetables for 10 minutes before tasting or serving.

      Select and prepare vegetables carefully
      • Choose only fresh, young, tender vegetables. Wash thoroughly, small amounts at a time, under running water or through several changes of water. Lift the vegetables gently out of the water so dirt washed off will not settle back on the food. Rinse the pan or sink between washings.
      • The number of quarts of canned food from a given amount of fresh vegetables depends on quality, condition, maturity, and variety of the vegetable; the size of pieces packed; and the way the vegetable is packed-raw or hot pack.
      • Generally, the following amounts of fresh vegetables (as purchased or picked) make 1 quart when canned:
        • Asparagus: 2 to 4 pounds
        • Beans, lima, in pods: 3 to 5 pounds
        • Beans, snap or green: 1 to 3 pounds
        • Beets, without tops: 2 to 3 pounds
        • Carrots, without tops: 2 to 3 pounds
        • Corn, sweet, in husks: 3 to 6 pounds
        • Peas, green, in pods: 3 to 6 pounds 
        • Pumpkin or winter squash: 1 to 3 pounds
        • Spinach and other greens: 2 to 6 pounds 

      Use standard jars and lids
      • Use only jars and two-piece lids made especially for canning. Check jars and lids for cracks, chips, dents and rust; these defects cause sealing failures. Commercial jars such as those for mayonnaise are not recommended for home canning because they are not designed for use with two-piece lids and because the glass is more likely to break during processing. Wash jars in hot, soapy water; rinse well. Prepare lids and bands according to manufacturer’s directions.
      • Mineral deposits or hard water film on jars can be removed by soaking the empty jars for several hours in a solution of 1 cup vinegar per gallon of water. To avoid mineral deposits on jars during processing add 1⁄4 cup vinegar per gallon of water used in the pressure canner.

      Fill jars and adjust lids
      • Vegetables can be packed raw, or preheated and packed hot. See Table 1 (released in next posting) for specific directions.
      • Most raw vegetables should be packed closely because they shrink during processing. Corn, lima beans and peas absorb liquid and expand when processed so should be loosely packed. To ensure proper heat penetration, do not pack vegetables too tightly. Vegetables packed hot should be at or near boiling temperature and should be packed loosely.
      • Use the hot cooking liquid and add boiling water, if needed, to fill the jar and cover the food for both raw and hot packed vegetables. If the vegetables at the top of the jar are not covered they may darken.
      • Salt is not needed for preservation in canned products but can be added for flavor. Use 1 teaspoon per quart or 1⁄2 teaspoon per pint.
      • The space between the packed food and liquid and the top of jar is called headspace. The amount of headspace required is given with details for canning each vegetable. Too much or too little headspace will affect jar seals.
      • Slide a non-metallic spatula between food and side of jar to remove any air bubbles. Wipe jar rims to remove food particles that might interfere with sealing. Adjust lids.

      Check altitude
      • As altitude increases, water boils at a lower temperature (below 212° F). Lower temperatures are not as effective for destroying organisms. Therefore, when using a pressure canner, the pressure must be increased as altitude increases.

      Process in a pressure canner
      • Partially fill canner with 2 to 3 inches of water. Place jar rack and sealed jars in canner. Fasten lid. Heat on high. After steam exhausts for 10 minutes, add weighted gauge or close petcock. Allow canner to reach designated pressure. Start timing when designated pressure is reached. Regulate heat to maintain a constant pressure.
      • Process for the time recommended in Table 2 (released in next posting). Do not reduce the processing time.
      • When processing is complete, remove canner from the burner.
      • Allow the canner to cool at room temperature until it is fully depressurized.
      • This will take 30 to 60 minutes depending on the type of canner. Do not rush the cooling by setting the canner in water or by running cold water over the canner.
      • Do not open the vent or lift the weight to quicken the reduction of pressure.
      • When the pressure has dropped to zero, carefully open the petcock or remove the weighted gauge. Wait 2 minutes, then slowly release and remove the canner lid.

      Remove and store jars
      • Take jars from canner and set upright on a rack or folded cloth away from drafts. Do not tighten the screw bands.
      • Allow jars to cool undisturbed for 12 to 24 hours, then check for sealing failures. 
      • To test jar, press center of lid. If lid is down and will not move, jar is sealed. Remove screw bands carefully. 
      • Wash, dry, label, and store jars in a cool, dark place. If any jars have not sealed, place in refrigerator and use within two days. Vegetables can be reprocessed with fresh liquid, new lids and clean jars, and the full processing time, but quality will be affected.

      Source: 
      • Textbook of Food Science and Technology

        Next Post: Guidance for Preparing and Packing Vegetables

        Friday, January 14, 2011

        The Business Plan, One of Seven Components to Start a Successful Food Processing Business

        After you have come up with an idea for a new food product or processing method, the next step is to develop a business plan. Sample business plan outlines are available on the internet and are discussed in a later article. The writing of a business plan is the most important part of the whole process of developing a new food product or process but often neglected and is probably why most new food products fail in the marketplace. 

        The concept of developing a business plan is to write down your thoughts and review them frequently with ever increasing detail. I could see a person working on a business plan for 5-6 months. The idea is to plan your new business in every detail so that you minimize the probability of wasting money. 

        Once you have started writing the plan, you will realize that there are areas that you don’t know about. Try to find people who can help you in areas that you are unfamiliar with. Get assistance wherever you can. There are a number of sections of a business plan that I do not think are initially important but there are others that tend to be the central focus of the whole new product development scheme. The most important aspect of the business plan is how you plan to market your new food product. You must clearly define such elements as “defining your customer” and why should a potential customer pick up your product versus a competition”. 

        Other important elements include “how you plan to manufacture the product and distribute it” but these are not as important as getting potential customers to pick up your product and try it. I often hear people say that my product tastes real good. That is good but how will potential customers know that it tastes good unless they pick it up and try it. If you cannot market and sell your product, you do not have a viable business.

        by: Harrys 

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        Thursday, January 13, 2011

        The Product, One of Seven Components to Start a Successful Food Processing Business

        Corned Beef, a beef based of
        prosessed food product
        The first step in starting a food processing business is to have a food product concept or idea. The concept or idea can be either a particular product or a new and innovative processing method. The idea or concept doesn’t have to be perfect to begin with. You just need to just get started on something. Your original idea or concept will probably change several times as you develop your business plan and get to know the business. So just start with any idea and move forward.

        Potato Chips, one of possible options
        Your idea could put more people to work and you may be the kind of person this country needs to compete in world markets and maintain its standard of living. Your idea may be the cutting edge of the future. In general, food products with just a different flavor do not have a high success rate because they can be easily matched by spice companies. Anyone can go into a store, buy your product and match the flavor within a matter of weeks. On the other hand, the restaurant trade is always looking for food products that they can just heat and serve. 

        Canned Fish, a fish based of
        prosessed food product
        They may have an interest in a new food item. Just start with a concept or idea knowing it does not have to be the ultimate idea. Remember that ideas are “a dime a dozen”. This means that your idea for a new product is not the key to success. I agree you have to have a good idea but companies with good ideas fail all the time. You have to have knowledge of the business, certain skills necessary to run the business, have family support for the first 3-5 years to get your business off the ground. Perseverance and some luck are also needed. All of these things will have to flow forward over the first few years of your business.

        by: Harrys 

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