Formulation, shelf-life and safety studies on value-added seafood products

Lyver, André.

January 1997

No description available.

Fishery products -- Preservation.

Seafood -- Preservation.

Fishery processing.

A comparison of the service qualities of certain cotton materials

Dennis, Ethel Faye

January 2011

Typescript, etc. / Digitized by Kansas State University Libraries

Cotton fabrics--Preservation

Dehydration and rehydration of apples

Singh, Harsharan Jit

January 2011

Digitized by Kansas State University Libraries

Food--Preservation

Fruit--Drying

Pork storage in freezer lockers

Wellington, George Harvey

January 2011

Typescript, etc. / Digitized by Kansas State University Libraries

Pork

Meat--Preservation

Problems relating to the cold storage of butter

Murray, Donald Leroy.

January 1938

Call number: LD2668 .T4 1938 M91

Butter--Preservation.

Masters theses

Shell treatment for preservation of hen eggs

Galbraith, Ernal Powell.

January 1942

LD2668 .T4 1942 G3 / Master of Science

Eggs--Preservation.

Masters theses

Effects of using chemical preservatives to extend the shelf life of soybean curd

Lim, Siew-Choo.

January 1984

Call number: LD2668 .T4 1984 L55 / Master of Science

Tofu--Preservation.

Masters theses

Spine-based deformation with local volume preservation

Zhuo, Wei

07 January 2016

In shape modeling applications, \emph{deformation} is the process of applying a continuous, non-affine transformation to a shape. The definition of the deformation should be independent of the representation of the shape. In practice, the shape is often represented by its boundary, which is defined by a set of vertices and by connectivity information. The transformation is often applied to these points. A deformation algorithm takes the orginal shape and designer's choices as inputs, and outputs the deformed shape. This dissertation dedicates to introducing \emph{spine-based deformation}: Any distortion to the shape is controlled by a low dimensional proxy, which is a spine curve or surface. Considering a sometimes important constraint to preserve the shape's volume during deformation, this thesis addresses a suite of problems in spine-based deformation with local volume preservation, meaning that the volume of any subset of the shape is preserved. Although our deformation model may be applied to the control points or vertices of a surface model that is not a water tight boundary of a solid, in this thesis, the term shape will refer to a solid model which has a clearly defined interior and volume. Previously proposed local or global volume compensation techniques are typically based on iterations that introduce a complexity bilinear in the numbers of vertices and iterations. we present a family of closed-form solutions for shape deformation with mathematically exact local volume preservation, and demonstrate their power in the context of interactive bending, rotating, sliding or stretching a 2D or 3D shape. The overall complexity is linear in the number of vertices. Proposed spine-based deformation framework adopts the following assumptions in geometric modeling: -- When the spine is a curve, a plane normal to the spine curve remains normal to the spine curve after deformation. The parameter associated with the point at which the plane intersects the curve is unchanged. -- When the spine is a surface, a line normal to the spine surface remains normal to the spine surface after deformation. The parameters associated with the point at which the line intersecting the plane remain unchanged. With these assumptions, we compute the closed-form formulation for the deformation that guarantees local volume preservation and is expressed using real roots of low degree polynomials and simple point and vector expressions. Due to its simplicity, our solution may be used to deform complex models in realtime during interactive manipulation or during animation, where the behavior of the spine has been designed or is computed in realtime through simulation.

Deformation

Volume preservation

Revitalizing local heritage: an urban design strategy for preserving the historical building form and urbanatmosphere of XinChang old town

吳宗翰, Wu, Peter.

January 2008

published_or_final_version / Urban Design / Master / Master of Urban Design

LEED and historic preservation : a study of USGBC’s LEED rating system for new construction and major renovations as it pertains to historic building renovations

Hamilton, Andreea Maura Monica 1973-

21 October 2014

This thesis discusses the United States Green Building Council’s proposed changes in the LEED® (Leadership in Energy and Environmental Design) Rating System for New Construction and Major Renovations from the current 2009 version to the proposed 2012 version, as they pertain to historic building renovation projects. The comparison is aimed at determining whether the proposed changes to the rating system are becoming more favorable to historic preservation, promoting the rehabilitation and reuse of historic buildings as environmentally responsible practices. The discussion is taken a step further by proposing potential modifications and metrics that could be implemented into the LEED® Rating System in order to help advance historic preservation by recognizing the many inherent sustainable qualities of historic buildings, such as regional climate-adaptive features, durable materials and skilled craftsmanship. The upcoming renovation of Battle Hall and West Mall Building, two buildings that are part of the School of Architecture complex at the University of Texas at Austin, serves as case study of historic buildings undergoing major renovations to which both the LEED 2009 and LEED 2012 Draft Rating Systems for New Construction and Major Renovations are applied. An analysis of the results informs the comparison between the two versions of the rating system. The results of the comparison indicate that changes in the LEED® rating system for New Construction and Major Renovation from the 2009 to the 2012 version are favorable for historic preservation. The USGBC is advancing in the right direction with establishing more credits for historic preservation projects. The 2012 3rd Public Comment Draft rating system introduces the notion of “historic building” and that of “historic district” for the first time, in credits that address infill within a historic district and reuse of a historic building, with work performed in accordance with The Secretary of the Interior’s Standards for the Treatment of Historic Properties. This represents a step forward toward integrating historic preservation and building reuse in the vocabulary of sustainability. / text

LEED

Historic preservation