Reintegration is known to be a difficult time for veterans. Peer support programs offer a good strategy for military and veterans, particularly as it relates to reintegration. We review an innovative, peer support program implemented at a veteran run community agricultural initiative (CAI). This project was a case-study evaluation using a mixed methods design including participant observations; qualitative interviews with a total of 34 CAI members and affiliates; and administered surveys to a total of 67 CAI members and affiliates. Survey results suggested that CAI participation contributed to improvements in communication, forming bonds, and developing new friendships with veterans, non-veterans, family members, and strangers, as well as increased involvement in community events. Interviews revealed that the CAI's informal peer-support culture and intentional normalization of sharing stories helped promote wellness and reintegration. The CAI continues to refine its peer support model. The organization is overcoming common barriers by leveraging community partnerships to bring veterans into the fold and expanding their peer support model to veteran organizations with similar missions. This approach will ultimately lead to a culture of peer support across agencies and spread the reach of the CAI's mission for veterans.
A bleaching agent is a material that lightens or whitens a substrate through chemical reaction. The bleaching reactions usually involve oxidative or reductive processes that degrade color systems. These processes may involve the destruction or modification of chromophoric groups in the substrate as well as the degradation of color bodies into smaller, more soluble units that are more easily removed in the bleaching process. The most common bleaching agents generally fall into two categories: chlorine and its related compounds (such as sodium hypochlorite) and the peroxygen bleaching agents, such as hydrogen peroxide and sodium perborate. Reducing bleaches represent another category. Enzymes are a new category of bleaching agents. They are used for textile, paper, and pulp bleaching as well as for home laundering. Chlorine‐containing bleaching agents are the most cost‐effective bleaching agents known. They are also effective disinfectants, and water disinfection is often the largest use of many chlorine‐containing bleaching agents. They may be divided into four classes: chlorine, hypochlorites, N ‐chloro compounds, and chlorine dioxide. Except to bleach wood pulp and flour, chlorine itself is rarely used as a bleaching agent. The principal form of hypochlorite produced is sodium hypochlorite. Other hypochlorites include calcium hypochlorite and bleach liquor, bleaching powder and tropical bleach. The principal solid chlorine bleaching agents are the chlorinated isocyanurates, eg, sodium dichloroisocyanurate dihydrate. Other N ‐chloro compounds include halogenated hydantoins, and sodium N ‐chlorobenzenesulfonamide (chloramine B). Chlorine dioxide is a gas that is more hazardous than chlorine. Large amounts for pulp bleaching are made by several processes in which sodium chlorate is reduced with chloride, methanol, or sulfur dioxide in highly acidic solutions by complex reactions. Hydrogen peroxide is one of the most common bleaching agents. It is the primary bleaching agent in the textile industry, and is also used in pulp, paper, and home laundry applications. Hydrogen peroxide reacts with many compounds, such as borates, carbonates, pyrophosphates, sulfates, etc, to give peroxy compounds or peroxyhydrates. Peracids have superior cold water bleaching capability versus hydrogen peroxide because of the greater electrophilicity of the peracid peroxygen moiety. Lower wash temperatures and phosphate reductions or bans in detergent systems account for the recent utilization and vast literature of peracids in textile bleaching. The reducing agents generally used in bleaching include sulfur dioxide, sulfurous acid, bisulfites, sulfites, hydrosulfite (dithionites), sodium sulfoxylate formaldehyde, and sodium borohydride. These materials are used mainly in pulp and textile bleaching. The high water‐ chemicals‐, and energy‐consuming bleaching process in textile industry might be replaced with bioprocesses using appropriate enzymatic systems. Enzymes, in both free and immobilized form, can be used for generation of the oxidizing agent necessary for bleaching as well as for direct bleaching of the textile substrate or for recycling of peroxide containing bleaching effluents. Suitable novel enzymatic systems are the glucose oxidases, chloroperoxidases, laccases, and catalases. Bleaching is a decolorization or whitening process that can occur in solution or on a surface. The color‐producing materials in solution or on fibers are typically organic compounds that possess extended conjugated chains of alternating single and double bonds and often include heteroatoms, carbonyl, and phenyl rings in the conjugated system. The portion of molecule that absorbs a photon of light is referred to as the chromophore. Bleaching and decolorization can occur by destroying one or more of the double bonds in the conjugated chain, by cleaving the conjugated chain, or by oxidation of one of the other moieties in the conjugated chain. The molecule then absorbs light in the ultraviolet region, and no color is produced. Chlorine bleaches react with more chromophores than oxygen bleaches. The mechanism of bleaching of hydrogen peroxide is not well understood. Reducing agents are thought to work by reduction of the chromophoric carbonyl groups in textiles or pulp. The most widely used bleach in the United States is liquid chlorine bleach, an alkaline aqueous solution of sodium hypochlorite. This bleach is highly effective at whitening fabrics and also provides germicidal activity at usage concentrations. Dry and liquid bleaches that deliver hydrogen peroxide to the wash are used to enhance cleaning on fabrics. They are less efficacious than chlorine bleaches but are safe to use on more fabrics. The dry bleaches typically contain sodium perborate in an alkaline base whereas the liquid peroxide bleaches contain hydrogen peroxide in an acidic solution. The worldwide decreasing wash temperatures, which decrease the effectiveness of hydrogen peroxide‐based bleaches, have stimulated research to identify activators to improve bleaching effectiveness. Tetraacetylethylenediamine (TAED) is widely used in European detergents to compensate for the trend to use lower wash temperatures. TAED has not been utilized in the United States, where one activator nonanoyloxybenzene sulfonate (NOBS) has been commercialized and incorporated into several detergent products. NOBS is claimed to provide superior cleaning in contrast to perborate bleaches. In industrial and institutional bleaching, either liquid or dry chlorine bleaches are used because of their effectiveness, low cost, and germicidal properties. Bleaching agents are used in hard surface cleaners to remove stains caused by mildew, foods, etc, and to disinfect surfaces. Disinfection is especially important for many industrial uses. Alkaline solutions of 1–5% sodium hypochlorite that may contain surfactants and other auxiliaries are most often used for these purposes. In‐tank toilet cleaners use calcium hypochlorite, dichloroisocyanurates, or N ‐chloro compounds to release hypochlorite with each flush. The primary role of bleach in automatic dishwashing and warewashing is to reduce spotting and filming. Many textiles are bleached to remove any remaining soil and colored compounds before dyeing and finishing. Cotton is the principal fiber bleached today, and almost all cotton is bleached. Other textiles are described.
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